TW201828853A - Slide fastener-attached product, element member, and method for manufacturing slide fastener-attached product - Google Patents
Slide fastener-attached product, element member, and method for manufacturing slide fastener-attached product Download PDFInfo
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- TW201828853A TW201828853A TW106145092A TW106145092A TW201828853A TW 201828853 A TW201828853 A TW 201828853A TW 106145092 A TW106145092 A TW 106145092A TW 106145092 A TW106145092 A TW 106145092A TW 201828853 A TW201828853 A TW 201828853A
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- Taiwan
- Prior art keywords
- sprocket
- zipper
- sewing
- fastener element
- fixing
- Prior art date
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Classifications
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/24—Details
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/24—Details
- A44B19/40—Connection of separate, or one-piece, interlocking members to stringer tapes; Reinforcing such connections, e.g. by stitching
- A44B19/403—Connection of separate interlocking members
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/02—Slide fasteners with a series of separate interlocking members secured to each stringer tape
- A44B19/08—Stringers arranged side-by-side when fastened, e.g. at least partially superposed stringers
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/24—Details
- A44B19/26—Sliders
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/24—Details
- A44B19/26—Sliders
- A44B19/28—Sliders constructed to be removable from at least one stringer ; Sliders with movable parts to permit releasing of the slider in the event of jamming or obstruction
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/24—Details
- A44B19/38—Means at the end of stringer by which the slider can be freed from one stringer, e.g. stringers can be completely separated from each other
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/42—Making by processes not fully provided for in one other class, e.g. B21D53/50, B21F45/18, B22D17/16, B29D5/00
Landscapes
- Slide Fasteners (AREA)
Abstract
Description
本發明係關於一種將於固定構件等間隔地安裝複數個拉鏈鏈齒而成之鏈齒構件直接安裝於設置在衣物等製品之鏈齒安裝緣部而形成的附有拉鏈之製品、及用於該附有拉鏈之製品之鏈齒構件、以及該附有拉鏈之製品之製造方法。The present invention relates to a zipper-attached product formed by directly installing a fastener element formed by mounting a plurality of fastener elements at regular intervals on a fastener element provided on a fastener element mounting edge of a product such as clothing, and the A sprocket member of the zipper-attached product, and a method for manufacturing the zipper-attached product.
拉鏈通常多被用作衣物、日用雜貨品、產業用材料等製品、或汽車、列車、飛機等之各種座椅類等製品之開合件。此種用於各種製品之拉鏈通常具有:左右一對拉鏈鏈帶,其等係於拉鏈鏈布之鏈布側緣部形成鏈齒排而成;及滑件,其沿左右鏈齒排滑動。 作為通常之拉鏈鏈帶,例如已知有藉由將熱塑性樹脂製之單絲成形為環扣狀或鋸齒狀而形成連續拉鏈鏈齒,並將該連續拉鏈鏈齒縫合至拉鏈鏈布之鏈布側緣部上而形成鏈齒排之拉鏈鏈帶。又,此外,亦已知有藉由將合成樹脂直接射出成形至拉鏈鏈布之鏈布側緣部、或者藉由將金屬壓鑄成形,而以特定之間隔形成複數個獨立之拉鏈鏈齒而形成鏈齒排之拉鏈鏈帶。 進而,於例如實公昭40-13870號公報(專利文獻1)中,揭示有藉由將由支持繩連結有複數個拉鏈鏈齒之鏈齒構件利用包縫(鎖邊縫製)之針跡而縫製於拉鏈鏈布之緣從而形成之拉鏈。 再者,於例如使用包縫機如上述般將鏈齒構件縫製於拉鏈鏈布之情形時,配置於拉鏈鏈布之鏈布正面側之縫製線(針線)係以不重疊於拉鏈鏈齒之方式配置。另一方面,配置於鏈布背面側之縫製線(線鉤線)係根據包縫機之線鉤之動作而於鏈布背面側易重疊於拉鏈鏈齒之上。因此,於如專利文獻1般之使用包縫之針跡形成拉鏈鏈帶之情形時,需要用以使線鉤線不重疊於拉鏈鏈齒之較高之技術力。 且說,於包含如上所述之專利文獻1之拉鏈之先前之拉鏈或先前之拉鏈鏈帶中,藉由將環扣狀之連續拉鏈鏈齒、或射出成形之合成樹脂製之拉鏈鏈齒等安裝於拉鏈鏈布之鏈布側緣部,而於該鏈布側緣部形成有鏈齒排。又,於將拉鏈安裝至衣物等拉鏈被安裝構件之情形時,通常進行如下:將拉鏈鏈布中之除了鏈布側緣部以外之部分(通常稱為鏈布主體部)於重疊於拉鏈被安裝構件之拉鏈安裝部之狀態下利用縫紉機將兩者縫合。 因此,於通常之拉鏈中,拉鏈鏈布通常被用作為了構成拉鏈所必需之構件(零件)。又,藉由拉鏈具有拉鏈鏈布,並且拉鏈經由拉鏈鏈布而安裝於衣物等拉鏈被安裝構件,從而於例如使拉鏈之滑件沿鏈齒排滑動時,使配置於滑件之左右凸緣部滑動接觸於相對較結實地形成之拉鏈鏈布,而不直接滑動接觸(或不易滑動接觸)於衣物等製品。藉此,即便反覆進行滑件之滑動操作,亦不使製品本身產生(或不易產生)伴隨滑件之滑動接觸之磨損或摩擦,而防止因與滑件之間之磨損或摩擦而製品之布料受損。 另一方面,於例如日本專利特開昭62-299205號公報(專利文獻2)中,揭示有如下:於為了謀求安裝有拉鏈之製品之色調等表觀(外觀品質)之提昇、及輕量化等,而梭織成或針織成製品之布料時,將連續狀之拉鏈鏈齒、或將於芯繩固定複數個拉鏈鏈齒而成之鏈齒構件直接梭織織入而固定或針織織入而固定於該布料。藉此,可不介置拉鏈鏈布地將拉鏈鏈齒直接安裝至製品之布料。 於如該專利文獻2般將拉鏈鏈齒直接梭織織入或針織織入至製品之布料之情形時,與例如於製造拉鏈之後,將該拉鏈之拉鏈鏈布縫製於製品之布料而製造附有拉鏈之製品之情形相比,可減少附有拉鏈之製品之製造中之作業步驟。因此,可期待生產線之速度化及成本削減等效果。 進而,可直接將拉鏈鏈齒梭織織入而固定或針織織入而固定於製品之布料,因此變得無需作為拉鏈之必需構成零件之拉鏈鏈布。因此,亦可期待附有拉鏈之製品之輕量化及柔軟性之提昇等。 [先前技術文獻] [專利文獻] 專利文獻1:實公昭40-13870號公報 專利文獻2:日本專利特開昭62-299205號公報Zippers are often used as openings and closings for clothing, household goods, industrial materials, and other products such as automobiles, trains, and airplanes. Such zippers for various products generally include: a pair of left and right zipper chain belts, which are formed by sprocket rows formed on the side edges of the chain cloth of the zipper chain cloth; and slides that slide along the left and right sprocket rows. As a general fastener chain, for example, a continuous fastener element is formed by forming a monofilament of thermoplastic resin into a loop shape or a zigzag shape, and the continuous fastener element is sewn to the fastener chain fabric Zipper chain straps forming a sprocket row on the side edges. In addition, it is also known that a plurality of independent fastener elements are formed at a specific interval by injection molding a synthetic resin directly to the side edge portion of the chain cloth of the fastener chain cloth or by die-casting a metal. Zip chain straps in the sprocket row. Furthermore, in, for example, Sho Sho 40-13870 (Patent Document 1), it is disclosed that a fastener element having a plurality of fastener elements connected by a support rope is sewn on the seam (overlock stitching) with a stitch. The zipper is formed by the edge of the zipper chain. In addition, in the case where the sprocket member is sewn to the zipper chain cloth as described above using an overlock sewing machine, the sewing thread (needle thread) arranged on the front side of the chain cloth of the zipper chain cloth is not overlapped with the zipper chain tooth. Way configuration. On the other hand, the sewing thread (thread hook thread) arranged on the back side of the chain cloth is easily overlapped on the fastener element on the back side of the chain cloth by the action of the hook of the overlock sewing machine. Therefore, in the case where a zipper chain is formed by using an overstitching stitch as in Patent Document 1, a high technical force is required so that the thread hook line does not overlap the fastener element. In addition, the previous zipper or the previous zipper chain including the zipper of Patent Document 1 described above is attached by a chain-like continuous zipper element or a synthetic resin zipper element by injection molding. A fastener element row is formed on a side edge portion of the chain cloth of the zipper chain cloth. When attaching a zipper to a member to be attached to a zipper such as clothing, it is generally performed as follows: A portion of the zipper chain cloth other than the side edge portion of the chain cloth (commonly referred to as a chain cloth main body portion) is overlapped on the zipper cloth. In the state of the zipper attachment portion of the attachment member, both are sewn with a sewing machine. Therefore, in a general slide fastener, a fastener chain is usually used as a member (part) necessary for constituting a slide fastener. In addition, since the zipper has a zipper chain cloth, and the zipper is attached to a zipper attachment member such as clothing through the zipper chain cloth, for example, when the slider of the zipper is slid along the fastener element row, the left and right flanges of the slider are arranged. The part slides into contact with the relatively tightly formed zipper chain cloth, and does not directly slide (or is not easy to slide into contact) with products such as clothing. Therefore, even if the sliding operation of the sliding member is repeatedly performed, the product itself (or it is not easy to generate) wear or friction accompanying the sliding contact of the sliding member is prevented, and the cloth of the product is prevented due to wear or friction with the sliding member. Damaged. On the other hand, for example, in Japanese Patent Laid-Open No. Sho 62-299205 (Patent Document 2), it has been disclosed that the appearance (quality of appearance) such as the color tone of a product to which a zipper is attached is improved and the weight is reduced. When weaving or knitting into the fabric of a product, we will directly weave the zip fasteners of continuous zipper elements or the sprocket members formed by fixing a plurality of zipper fastener elements to the core rope to fix or knit them. It is fixed to the cloth. Thereby, the fastener element can be directly attached to the fabric of the product without interposing the fastener chain cloth. In the case where the fastener element is directly woven or knitted into the fabric of the product as in Patent Document 2, and, for example, after the zipper is manufactured, the zipper chain fabric of the zipper is sewn to the fabric of the product to manufacture Compared with the case of a product with a zipper, the number of working steps in the manufacture of the product with a zipper can be reduced. Therefore, effects such as speeding up production lines and reducing costs can be expected. Furthermore, since the fastener element can be directly woven and fixed by knitting or knitting and fixed to the fabric of the product, it becomes unnecessary to use the fastener chain as a necessary component of the fastener. Therefore, it is also expected that the weight and the flexibility of the product with a zipper are improved. [Prior Art Literature] [Patent Literature] Patent Literature 1: Shiko Sho 40-13870 Patent Literature 2: Japanese Patent Laid-Open No. 62-299205
[發明所欲解決之問題] 近年來,於衣物等衣類、包類、及鞋類等製品中,正不斷根據各種用途而改善性質、或賦予各種功能從而提昇附加價值。於例如日常地使用之衣類或包類等中,要求進一步之輕量化及柔軟性之提昇等。 但是,於包含上述專利文獻1中所記載之拉鏈之先前之拉鏈中,作為拉鏈之構成零件,拉鏈鏈布、拉鏈鏈齒、及滑件為必需而不可缺少的。因此,於安裝有該拉鏈之附有拉鏈之製品之情形時,拉鏈之輕量化存在極限。又,由於拉鏈鏈帶之拉鏈鏈布係藉由利用縫紉機之縫製加工等而安裝於製品之拉鏈安裝部,故而亦存在使製品之柔軟性降低之情形。 另一方面,例如專利文獻2中所記載般,於藉由將拉鏈鏈齒或鏈齒構件直接梭織織入而固定或針織織入而固定於製品之布料從而製造附有拉鏈之製品之情形時,如上述般無需拉鏈鏈布,因此變得易於實現附有拉鏈之製品之輕量化。 但是,為了將拉鏈鏈齒直接梭織織入而固定或針織織入而固定於製品之布料,需要高級之技術或專用之設備。其結果,導致設備成本之增加,並且亦必須致力於熟練之技術者之確保或培養。 又,例如根據製品之用途等,存在藉由對製品之布料塗覆合成樹脂等而對布料賦予所需之功能之情況。但是,於如專利文獻2般當梭織成或針織成製品之布料時直接梭織織入而固定或針織織入而固定拉鏈鏈齒之情形時,亦存在難以藉由對布料塗覆合成樹脂等而穩定地賦予所需之功能之情況。 進而,於專利文獻2之附有拉鏈之製品中,如上述般拉鏈鏈齒係直接安裝於製品之布料。因此,於使拉鏈之滑件沿鏈齒排滑動時,配置於滑件之左右凸緣部直接滑動接觸於製品之布料。其結果,因反覆進行滑件之滑動操作,而伴隨滑件之滑動接觸而製品之布料反覆發生磨損或摩擦,因此可認為製品之布料變得易受損。 本發明係鑒於上述先前之問題而完成者,其具體之目的在於提供一種附有拉鏈之製品、及用於該附有拉鏈之製品之鏈齒構件、以及該附有拉鏈之製品之製造方法,該附有拉鏈之製品係將具備複數個拉鏈鏈齒之鏈齒構件不介置拉鏈鏈布地直接安裝於製品之拉鏈被安裝構件,而與先前之通常之附有拉鏈之製品相比可期待輕量化及柔軟性之提昇,並且即便反覆進行滑件之滑動操作亦不易使製品之拉鏈被安裝構件產生損傷。 [解決問題之技術手段] 為了達成上述目的,由本發明提供之附有拉鏈之製品之最主要之特徵在於具有:一對鏈齒構件,其等係將拉鏈鏈齒安裝至固定構件而成;拉鏈被安裝構件,其於相互對向之位置具備供安裝上述鏈齒構件之一對鏈齒安裝緣部;及至少1個滑件,其可滑動地安裝於藉由上述拉鏈鏈齒而形成之鏈齒排;上述鏈齒構件係藉由固定用縫製部而直接固定於上述鏈齒安裝緣部,上述固定用縫製部係刺穿上述鏈齒安裝緣部,且形成上述固定用縫製部之縫製線保持上述固定構件,上述附有拉鏈之製品設置有保護上述鏈齒安裝緣部之至少一部分使其不與上述滑件接觸之保護部。 較佳為於本發明之附有拉鏈之製品中,於上述拉鏈被安裝構件之上述鏈齒安裝緣部,沿上述鏈齒構件之長度方向配置與滑動之上述滑件之一部分相對之滑件相對區域,上述固定用縫製部之上述縫製線配置於上述鏈齒安裝緣部之上述滑件相對區域之至少一部分,上述保護部係藉由上述滑件相對區域之上述縫製線而形成。 較佳為於該情形時,上述固定用縫製部之上述縫製線係作為上述保護部,於上述鏈齒安裝緣部之上述滑件相對區域配置成鋸齒狀。 又,較佳為上述滑件具有:上翼板及下翼板,其等係相互平行地配置;連結柱,其連結上述上翼板與上述下翼板間;及凸緣部,其配置於上述上翼板及上述下翼板之至少一者之左右側緣部;於上述拉鏈被安裝構件之上述鏈齒安裝緣部,上述滑件相對區域係以與滑動之上述滑件之上述凸緣部相對之方式,沿上述鏈齒構件之長度方向而配置。 又,亦可為於本發明之附有拉鏈之製品中,上述滑件具有:上翼板及下翼板,其等係相互平行地配置;連結柱,其連結上述上翼板與上述下翼板間;及凸緣部,其配置於上述上翼板及上述下翼板之至少一者之左右側緣部;上述拉鏈鏈齒具有凸緣用凹部,該凸緣用凹部係於上述拉鏈鏈齒之上半部及下半部之至少一者沿上述鏈齒構件之長度方向配置,並且對應於上述滑件之上述凸緣部之位置而配置,上述保護部係藉由複數個上述拉鏈鏈齒之上述凸緣用凹部而形成。 較佳為於該情形時,上述拉鏈鏈齒具有:第1鏈齒部,其包含扣合於嚙合對象側之上述拉鏈鏈齒之嚙合頭部,並且具有與上述滑件中之上述上翼板與上述下翼板間之間隔對應之鏈齒厚度方向之尺寸;及第2鏈齒部,其係自上述第1鏈齒部向寬度方向之相對於上述嚙合頭部遠離之方向延出,並且使鏈齒厚度方向之尺寸較上述第1鏈齒部經由階差而變得更小;上述凸緣用凹部係藉由上述第1鏈齒部與上述第2鏈齒部之上述鏈齒厚度尺寸之差異而形成於上述拉鏈鏈齒。 較佳為於本發明之附有拉鏈之製品中,上述固定用縫製部係藉由鎖型針步而形成。 又,較佳為上述固定用縫製部係相對於上述鏈齒構件之長度方向曲折成鋸齒狀而形成。 進而,較佳為複數個上述拉鏈鏈齒係分別獨立地形成,並且等間隔地配置於上述固定構件,上述固定用縫製部係使上述縫製線對每個上述拉鏈鏈齒重複特定樣式之線跡而形成。 又,較佳為於本發明之附有拉鏈之製品中,上述拉鏈被安裝構件之上述鏈齒安裝緣部係使上述拉鏈被安裝構件之側緣部於上述鏈齒構件之寬度方向上回折而形成。 較佳為於本發明之附有拉鏈之製品中,上述拉鏈鏈齒具有:主體部,其固定於上述固定構件;及嚙合部,其與嚙合對象側之上述鏈齒構件之上述拉鏈鏈齒扣合;上述主體部係於上述拉鏈鏈齒之俯視下具有遞減部,該遞減部係上述鏈齒構件之長度方向上之上述主體部之尺寸隨著遠離上述嚙合部而遞減。 其次,由本發明提供之鏈齒構件係可安裝於拉鏈被安裝構件之鏈齒構件,其最主要之特徵在於具有:固定構件;及拉鏈鏈齒,其安裝於上述固定構件;上述拉鏈鏈齒具有:主體部,其固定於上述固定構件;及嚙合頭部,其自上述主體部向上述鏈齒構件之寬度方向延出;上述拉鏈鏈齒具有:第1鏈齒部,其包含上述嚙合頭部,並且鏈齒厚度方向之尺寸被設定為特定之大小;及第2鏈齒部,其包含上述主體部之至少一部分,並且鏈齒厚度方向之尺寸較上述第1鏈齒部經由階差而變得更小;於上述拉鏈鏈齒配置有藉由上述第1鏈齒部與上述第2鏈齒部之上述鏈齒厚度尺寸之差異而形成之凹部。 其次,由本發明提供之製造方法係製造附有拉鏈之製品之製造方法,其最主要之特徵在於包括以下步驟:形成於固定構件安裝拉鏈鏈齒而成之鏈齒構件;形成具備鏈齒安裝緣部之拉鏈被安裝構件;及一面藉由使用縫紉機對上述拉鏈被安裝構件與上述鏈齒構件進行縫製加工而形成固定用縫製部,一面藉由上述固定用縫製部將上述鏈齒構件固定於上述拉鏈被安裝構件之上述鏈齒安裝緣部。 較佳為本發明之製造方法包括以下步驟:將上述固定用縫製部藉由鎖型針步之針跡以相對於長度方向曲折成鋸齒狀之方式形成。 [發明之效果] 本發明之附有拉鏈之製品具有:左右一對鏈齒構件,其等係將複數個獨立之拉鏈鏈齒等間隔地安裝至具備可撓性之長條之固定構件而形成;拉鏈被安裝構件,其於相互對向之位置具備供安裝鏈齒構件之左右一對鏈齒安裝緣部;及至少1個滑件,其可滑動地安裝於藉由複數個拉鏈鏈齒而形成之鏈齒排。 左右鏈齒構件係藉由固定用縫製部而分別直接固定於拉鏈被安裝構件之相對應之鏈齒安裝緣部。於該情形時,固定用縫製部係刺穿鏈齒安裝緣部,並且形成固定用縫製部之縫製線保持鏈齒構件之固定構件。進而,於本發明之附有拉鏈之製品中,設置有保護鏈齒安裝緣部之至少一部分使其不與滑件接觸之保護部。 根據如上所述之本發明之附有拉鏈之製品,鏈齒構件係藉由上述固定用縫製部而容易且穩定地固定於拉鏈被安裝構件之鏈齒安裝緣部,並且可穩定地維持該鏈齒構件之固定狀態。因此,可長期穩定地發揮形成於製品之拉鏈之功能。 又,於本發明之附有拉鏈之製品中,可不使用於先前之拉鏈中為必需之構成零件之拉鏈鏈布地構成拉鏈。藉由如此將拉鏈鏈布設為不需要,可提昇附有拉鏈之製品之輕量化及柔軟性。又,於本發明中,鏈齒構件係藉由利用縫紉機形成之固定用縫製部而直接固定於被賦予例如防水性等般之所需之功能之拉鏈被安裝構件,因此亦能以低成本容易地製造拉鏈被安裝構件(布料)具備特別之功能之附有拉鏈之製品。 進而,於本發明中,形成有保護鏈齒安裝緣部之至少一部分使其不與滑件接觸之保護部。因此,即使反覆進行滑件之滑動操作,亦可藉由保護部而抑制於拉鏈被安裝構件之鏈齒安裝緣部產生之磨損或摩擦,從而不易損傷拉鏈被安裝構件。 因此,於本發明之附有拉鏈之製品中,可大幅度提昇拉鏈之易使用性及方便性。因此,本發明之製品可更佳地用於衣類、鞋類、包類等日用品,且除了日用品以外,亦可較佳地用於產業用材料等製品、汽車或飛機等之各種座椅類等各種製品。 於如上所述之本發明之附有拉鏈之製品中,於拉鏈被安裝構件之鏈齒安裝緣部,沿鏈齒構件之長度方向配置有與滑動之滑件之一部分相對之滑件相對區域,固定用縫製部之縫製線係於鏈齒安裝緣部之滑件相對區域之至少一部分對向面露出而配置。又,保護鏈齒安裝緣部之保護部係藉由滑件相對區域之縫製線而形成。 如此,藉由使保護鏈齒安裝緣部之保護部藉由配置於鏈齒安裝緣部之滑件相對區域之縫製線而形成,可容易且穩定地設置保護部。又,藉由利用縫製線所得之保護部,能夠有效地保護拉鏈被安裝構件之鏈齒安裝緣部使其不與滑件滑動接觸。 尤其是,於該情形時,固定用縫製部之縫製線係作為保護部,於鏈齒安裝緣部之滑件相對區域配置成鋸齒狀。藉此,能夠更有效地保護拉鏈被安裝構件之鏈齒安裝緣部使其不與滑件滑動接觸。 又,本發明之滑件具有:上翼板及下翼板,其等係相互平行地配置;連結柱,其連結上翼板與下翼板間;及凸緣部,其配置於上翼板及下翼板之至少一者之左右側緣部。於該情形時,於拉鏈被安裝構件之鏈齒安裝緣部,以與滑動之滑件之凸緣部相對之方式,沿鏈齒構件之長度方向配置有滑件相對區域。藉此,能夠藉由利用固定用縫製部之縫製線形成之保護部,更有效地保護拉鏈被安裝構件之鏈齒安裝緣部使其不與滑件之凸緣部滑動接觸。 又,於本發明之附有拉鏈之製品中,於滑件具有相互平行地配置之上翼板及下翼板、連結上翼板與下翼板間之連結柱、及配置於上翼板及下翼板之至少一者之左右側緣部之凸緣部之情形時,拉鏈鏈齒亦可具有凸緣用凹部,該凸緣用凹部係於拉鏈鏈齒之上半部及下半部之至少一者沿鏈齒構件之長度方向配置,並且對應於滑件之凸緣部之位置而配置。於該情形時,保護鏈齒安裝緣部之保護部係藉由複數個拉鏈鏈齒之凸緣用凹部而形成。 藉此,於滑件之滑動時,滑件之凸緣部可一面收容於形成於複數個拉鏈鏈齒之凸緣用凹部內,一面移動,藉此,凸緣部變得不直接滑動接觸(或變得不易滑動接觸)於拉鏈被安裝構件之鏈齒安裝緣部,因此能夠有效地防止因滑件之滑動而拉鏈被安裝構件產生損傷。 尤其是,於該情形時,拉鏈鏈齒具有:第1鏈齒部,其包含扣合於嚙合對象側之拉鏈鏈齒之嚙合頭部,並且具有與滑件中之上翼板與下翼板間之間隔對應之鏈齒厚度方向之尺寸;及第2鏈齒部,其自第1鏈齒部向寬度方向之相對於嚙合頭部遠離之方向延出,並且使鏈齒厚度方向之尺寸較第1鏈齒部經由階差而變得更小。藉此,成為保護部之凸緣用凹部可藉由第1鏈齒部與第2鏈齒部之鏈齒厚度尺寸之差異而容易地形成於拉鏈鏈齒。因此,藉由設置於複數個拉鏈鏈齒之凸緣用凹部,能夠穩定地保護拉鏈被安裝構件之鏈齒安裝緣部使其不與滑件之凸緣部接觸。 於此種本發明之附有拉鏈之製品中,將鏈齒構件固定於鏈齒安裝緣部之固定用縫製部係藉由鎖型針步而形成。尤其是,本發明之固定用縫製部係相對於上述鏈齒構件之長度方向曲折成鋸齒狀而形成。 若為具備如上所述之固定用縫製部之附有拉鏈之製品,則可藉由使用例如鋸齒針步縫紉機,而將鏈齒構件容易且穩定地縫製於拉鏈被安裝構件之鏈齒安裝緣部。因此,即便不重新導入昂貴之專用設備,亦能夠穩定且廉價地製造本發明之附有拉鏈之製品。又,於該情形時,可藉由固定用縫製部之縫製線,容易地形成保護鏈齒安裝緣部之保護部,並且可將利用該縫製線所得之保護部對稱地形成於鏈齒安裝緣部之正面(上表面)及背面(下表面)之兩面。因此,於使用於上翼板及下翼板之兩者配置有凸緣之滑件之情形時,能夠更有效地保護拉鏈被安裝構件之鏈齒安裝緣部使其不與滑件接觸。 又,於本發明之附有拉鏈之製品中,複數個拉鏈鏈齒係由合成樹脂分別獨立地形成,並且等間隔地配置於固定構件。又,固定用縫製部係使縫製線每個拉鏈鏈齒地重複特定樣式之線跡而形成。藉此,鏈齒構件被順利地且穩定地安裝至拉鏈被安裝構件之鏈齒安裝緣部,而於鏈齒安裝緣部恰當地形成鏈齒排。 進而,於本發明之附有拉鏈之製品中,拉鏈被安裝構件之鏈齒安裝緣部係使拉鏈被安裝構件之側緣部於鏈齒構件之寬度方向上回折而形成。藉此,可容易地提昇拉鏈被安裝構件之鏈齒安裝緣部之強度。又,藉此,鏈齒構件被更牢固地固定於拉鏈被安裝構件之鏈齒安裝緣部,並且可使各鏈齒相對於拉鏈被安裝構件之位置及姿勢更穩定。 又,藉由使拉鏈被安裝構件之側緣部於鏈齒構件之寬度方向上回折,而即便例如拉鏈被安裝構件(布料)之側端緣出現綻開,亦可使該綻開隱藏於鏈齒安裝緣部之背面側,而不露出至外側。藉此,可提昇附有拉鏈之製品之外觀品質(表觀)。進而,可防止側端緣之綻開使左右鏈齒排之嚙合變差,並且防止使滑件之滑動性降低。 進而,於本發明之附有拉鏈之製品中,各拉鏈鏈齒具有:主體部,其固定於固定構件;及嚙合部(下述之頸部及嚙合頭部),其與嚙合對象側之鏈齒構件之拉鏈鏈齒扣合。又,拉鏈鏈齒之主體部係於拉鏈鏈齒之俯視或仰視下具有:主體末端部,其配置於偏嚙合部,並且鏈齒構件之長度方向上之主體部之尺寸成為固定之大小或隨著遠離嚙合部而遞增;及遞減部,其自主體末端部向遠離嚙合部之方向延出,並且鏈齒構件之長度方向上之主體部之尺寸隨著遠離嚙合部而遞減。此處,所謂主體部之長度方向上之尺寸係指於拉鏈鏈齒之俯視下,主體部中之前表面部與後表面部之間之長度方向上之尺寸。 藉由各拉鏈鏈齒具有如上所述之遞減部,而於固定鏈齒構件之固定用縫製部例如曲折成鋸齒狀而形成之情形時,可使該固定用縫製部之縫製線(鎖型針步之面線及底線)更不易重疊於拉鏈鏈齒。藉此,可防止固定用縫製部之縫製線出現鬆弛,而穩定地維持鏈齒構件被固定於拉鏈被安裝構件之狀態。進而,亦可防止因固定用縫製部之縫製線重疊於拉鏈鏈齒而左右鏈齒排之嚙合變差、或滑件之滑動性降低。 其次,本發明之鏈齒構件係可安裝於拉鏈被安裝構件之鏈齒構件,且具有:長條之固定構件,其具備可撓性;及複數個獨立之拉鏈鏈齒,其等係等間隔地安裝於固定構件。鏈齒構件之各拉鏈鏈齒具有:主體部,其固定於固定構件;及嚙合頭部,其自主體部向鏈齒構件之寬度方向經由頸部而延出。 又,拉鏈鏈齒具有:第1鏈齒部,其包含嚙合頭部並且鏈齒厚度方向之尺寸被設定為例如與滑件中之上翼板與下翼板間之間隔對應之特定之大小;及第2鏈齒部,其包含主體部之至少一部分,並且使鏈齒厚度方向之尺寸較第1鏈齒部經由階差而變得更小。進而,於拉鏈鏈齒設置有藉由第1鏈齒部與第2鏈齒部之鏈齒厚度尺寸之差異而可容納滑件之凸緣部之凹部。 藉由使如上所述之凹部遍及複數個拉鏈鏈齒地沿鏈齒構件之長度方向形成,而於滑件之滑動時,能夠使該滑件之凸緣部於拉鏈鏈齒之凹部內移動,藉此,可防止滑件之凸緣部直接滑動接觸於拉鏈被安裝構件之鏈齒安裝緣部,而穩定地保護拉鏈被安裝構件而使其不與滑件接觸。 此種本發明之鏈齒構件可使用縫紉機而直接固定於拉鏈被安裝構件之鏈齒安裝緣部。又,於使用如上所述之本發明之鏈齒構件製造附有拉鏈之製品之情形時,可將滑件之凸緣部容納而收容於形成於鏈齒構件之各拉鏈鏈齒之凹部(凸緣用凹部),因此拉鏈鏈齒之凹部係如上所述般作為保護拉鏈被安裝構件使其不與滑件接觸之保護部而發揮功能。藉此,即便反覆進行滑件之滑動操作,亦可阻止滑件之凸緣部直接滑動接觸於拉鏈被安裝構件之鏈齒安裝緣部,而有效地防止因滑件之滑動而使拉鏈被安裝構件產生損傷。 其次,本發明之附有拉鏈之製品之製造方法係首先藉由例如於固定構件進行合成樹脂之射出成形,而形成於固定構件安裝具有特定之形狀之拉鏈鏈齒而成之鏈齒構件。又,與鏈齒構件分開地形成具備鏈齒安裝緣部之拉鏈被安裝構件。 繼而,一面藉由對製作之拉鏈被安裝構件與鏈齒構件使用縫紉機進行縫製加工,而形成固定用縫製部,一面藉由該固定用縫製部將鏈齒構件直接固定於拉鏈被安裝構件之鏈齒安裝緣部。藉此,沿拉鏈被安裝構件之鏈齒安裝緣部形成鏈齒排。其後,藉由例如將滑件安裝於鏈齒排,可容易地製造不使用拉鏈鏈布之附有拉鏈之製品。其結果,可達成附有拉鏈之製品之製造成本之削減、輕量化、及柔軟性之提昇。 於如上所述之本發明之製造方法中,藉由鎖型針步之針跡,以相對於長度方向曲折成鋸齒狀之方式形成將鏈齒構件固定於拉鏈被安裝構件之鏈齒安裝緣部之固定用縫製部。藉此,可將鏈齒構件容易且穩定地固定於拉鏈被安裝構件。又,即便不重新導入昂貴之專用設備,亦可藉由使用例如通常之鋸齒針步縫紉機,而廉價地製造附有拉鏈之製品。又,於該情形時,可藉由固定用縫製部之縫製線,容易地形成保護鏈齒安裝緣部之上述保護部,並且將利用該縫製線所得之保護部對稱地形成於鏈齒安裝緣部之正面(上表面)及背面(下表面)之兩面。因此,能夠更有效地保護拉鏈被安裝構件之鏈齒安裝緣部而使其不與滑件接觸。[Problems to be Solved by the Invention] In recent years, in products such as clothing, bags, and footwear such as clothing, properties have been continuously improved or various functions have been added to enhance added value according to various uses. For example, in clothes or bags for daily use, further weight reduction and softness improvement are required. However, in the conventional slide fastener including the slide fastener described in the said patent document 1, as a constituent part of a slide fastener, the fastener chain cloth, fastener element, and slider are indispensable and indispensable. Therefore, there is a limit to the weight reduction of the zipper when the zipper-attached product is installed. Moreover, since the fastener chain cloth of a fastener chain is attached to the fastener attachment part of a product by the sewing process of a sewing machine, etc., the flexibility of a product may fall. On the other hand, for example, as described in Patent Document 2, when a fastener element or a fastener element is directly woven into and fixed by knitting or knitted and fixed to a fabric of a product, a product with a zipper is manufactured. In this case, since a zipper chain is not required as described above, it becomes easy to reduce the weight of a product with a zipper. However, in order to directly weave and fasten the fastener elements of a zipper, or to knit and fix the fabric of the product, advanced technology or special equipment is required. As a result, the cost of equipment is increased, and it is necessary to devote themselves to ensuring or cultivating skilled technicians. In addition, for example, depending on the use of the product, a desired function may be provided to the cloth by applying synthetic resin or the like to the cloth of the product. However, as in Patent Document 2, when weaving or knitting into a fabric of a product, weaving and knitting it directly and fixing it or knitting and knitting it together fixes the fastener element, and it is difficult to coat the cloth with synthetic resin Wait until the required function is stably provided. Furthermore, in the product with a slide fastener of Patent Document 2, the fastener elements are directly attached to the fabric of the product as described above. Therefore, when the slider of the slide fastener is slid along the sprocket row, the left and right flange portions disposed on the slider directly slide into contact with the fabric of the product. As a result, the sliding operation of the slider is repeatedly performed, and the cloth of the product is repeatedly worn or rubbed due to the sliding contact of the slider. Therefore, the cloth of the product may be easily damaged. The present invention has been made in view of the foregoing problems, and a specific object thereof is to provide a zipper-attached product, a sprocket member for the zipper-attached product, and a method for manufacturing the zipper-attached product. This zipper-attached product is a zipper attachment member in which a sprocket member having a plurality of zipper fastener elements is directly mounted on the product without interposing a zipper chain cloth, and can be expected to be lighter than a conventional zipper-attached product. Quantitative and softness improvement, and even if the sliding operation of the slider is repeatedly performed, it is not easy to cause damage to the zipper of the product by the mounting member. [Technical means to solve the problem] In order to achieve the above object, the main feature of the product with a zipper provided by the present invention is that it has: a pair of sprocket members, which are formed by mounting the zipper sprocket to a fixed member; a zipper The member to be mounted includes a pair of sprocket mounting edge portions for mounting one of the sprocket members at positions facing each other; and at least one slider that is slidably mounted on a chain formed by the zipper sprocket. Tooth row; The sprocket member is directly fixed to the sprocket mounting edge portion by a fixing sewing portion, and the fixing sewing portion pierces the sprocket mounting edge portion and forms a sewing line of the fixing sewing portion. The fixing member is held, and the zippered product is provided with a protection portion that protects at least a part of the sprocket mounting edge portion from contact with the slider. In the product with a zipper according to the present invention, it is preferable that the sliding member opposite to a part of the sliding member sliding along the length direction of the sprocket member is arranged on the sprocket mounting edge portion of the zipper mounted member along the length direction of the sprocket member. In the area, the sewing line of the fixing sewing portion is disposed at least a part of the slider facing area of the sprocket mounting edge portion, and the protective portion is formed by the sewing line of the slider facing area. In this case, it is preferable that the sewing thread of the fixing sewing portion is used as the protection portion, and the opposite area of the slider on the sprocket mounting edge portion is arranged in a zigzag shape. The slider preferably includes: an upper wing plate and a lower wing plate, which are arranged in parallel with each other; a connecting post connecting the upper wing plate and the lower wing plate; and a flange portion, which is disposed at The left and right side edge portions of at least one of the upper wing plate and the lower wing plate; at the sprocket mounting edge portion of the fastener-attached member, the sliding member facing area is the flange with the sliding member. The part facing is arranged along the longitudinal direction of the sprocket member. In addition, in the product with a zipper of the present invention, the slider includes: an upper wing plate and a lower wing plate, which are arranged in parallel with each other; and a connecting post, which connects the upper wing plate and the lower wing. Between the plates; and flange portions, which are arranged on the left and right side edge portions of at least one of the upper wing plate and the lower wing plate; the fastener element has a recess for a flange, and the recess for the flange is attached to the fastener chain At least one of the upper half and the lower half of the teeth is arranged along the length direction of the sprocket member, and is arranged corresponding to the position of the flange portion of the slider. The protection portion is provided by a plurality of the zipper chains. The teeth are formed with the recessed portions for the flanges. In this case, it is preferable that the fastener element includes a first fastener element portion including an engaging head portion of the fastener element which is fastened to a meshing object side, and has the upper wing plate in the slider. A dimension in the thickness direction of the sprocket corresponding to the interval between the lower wing plates; and a second sprocket portion extending from the first sprocket portion in a width direction away from the meshing head, and Make the size in the thickness direction of the sprocket smaller than the first sprocket portion through the step; the recessed portion for the flange is the sprocket thickness dimension of the first sprocket portion and the second sprocket portion. The difference is formed in the above fastener element. In the zipper-attached product of the present invention, it is preferable that the above-mentioned fixed sewing portion is formed by a lock-type needle step. Moreover, it is preferable that the said sewing part for fixing is formed by zigzag | zigzag shape with respect to the longitudinal direction of the said sprocket member. Further, it is preferable that a plurality of the fastener element systems are formed independently and arranged at equal intervals on the fixing member, and the fixing sewing unit repeats the sewing thread in a specific pattern for each of the fastener element systems. And formed. Further, in the zipper-attached product of the present invention, it is preferable that the fastener element mounting edge portion of the fastener-attached member is such that a side edge portion of the fastener-attached member is folded back in the width direction of the fastener element. form. In the zipper-attached product of the present invention, it is preferable that the fastener element includes: a main body portion which is fixed to the fixing member; and an engaging portion which is in contact with the fastener element fastener of the fastener element on the object side. The above-mentioned main body portion has a decreasing portion in a plan view of the fastener element, and the decreasing portion is a size of the main body portion in the longitudinal direction of the sprocket member that decreases with distance from the engaging portion. Secondly, the sprocket member provided by the present invention is a sprocket member that can be mounted on a member to be mounted on a zipper. The main features are: a fixing member; and a zipper sprocket that is mounted on the fixing member; the zipper sprocket has : A main body portion that is fixed to the fixing member; and an engaging head portion that extends from the main body portion to the width direction of the sprocket member; the fastener element includes: a first sprocket portion that includes the engaging head portion And the size in the thickness direction of the sprocket is set to a specific size; and the second sprocket portion includes at least a part of the main body portion, and the size in the sprocket thickness direction is changed from the first sprocket portion through a step. It is even smaller; a concave portion formed by a difference in the thickness and size of the first sprocket portion and the second sprocket portion is disposed in the fastener element. Secondly, the manufacturing method provided by the present invention is a manufacturing method for manufacturing a product with a zipper, and its main feature is that it includes the following steps: forming a sprocket member formed by mounting a fastener element on a fixed member; forming a sprocket mounting edge A zipper attachment member; and a sewing portion for fixing is formed by sewing the zipper attachment member and the sprocket member using a sewing machine, and the sprocket member is fixed to the sprocket member by the sew section. The above-mentioned fastener element attachment edge portion of the fastener attachment member. It is preferable that the manufacturing method of the present invention includes the step of forming the above-mentioned fixing sewing portion by zigzag stitching with a lock-type stitch step in a zigzag manner with respect to the longitudinal direction. [Effects of the Invention] The zipper-containing product of the present invention includes a pair of left and right sprocket members, which are formed by mounting a plurality of independent zipper sprockets at regular intervals on a long fixing member having flexibility. A zipper mounted member having a pair of left and right sprocket mounting edge portions for mounting a sprocket member at positions facing each other; and at least one slider that is slidably mounted on a plurality of zip sprocket members Sprocket formation. The left and right sprocket members are respectively directly fixed to the corresponding sprocket mounting edge portions of the to-be-attached member by the fixing sewing portions. In this case, the fixing sewing portion pierces the sprocket mounting edge portion, and forms a fixing member that holds the sprocket member by the sewing line of the fixing sewing portion. Furthermore, in the zipper-attached product of the present invention, a protection portion is provided to protect at least a part of the sprocket mounting edge portion from contact with the slider. According to the zipper-attached product of the present invention as described above, the fastener element is easily and stably fixed to the fastener element mounting edge portion of the fastener-attached member by the fixing sewing portion, and the chain can be stably maintained. The fixed state of the tooth member. Therefore, the function of the zipper formed on the product can be stably exerted for a long time. Moreover, in the zipper-attached product of the present invention, the zipper can be configured without using the zipper chain cloth, which is an essential component in the conventional zipper. By making the zipper chain cloth unnecessary in this way, the weight and flexibility of the product with the zipper can be improved. Further, in the present invention, since the sprocket member is directly fixed to a zipper attachment member provided with a required function such as waterproofness by using a fixing sewing portion formed by a sewing machine, it can be easily and inexpensively. The zipper-attached member (fabric) has a special function to manufacture a product with a zipper. Furthermore, in the present invention, a protection portion is formed to protect at least a part of the sprocket mounting edge portion from contact with the slider. Therefore, even if the sliding operation of the slider is repeatedly performed, wear or friction generated on the fastener element mounting edge portion of the fastener-attached member can be suppressed by the protective portion, so that the fastener-attached member is not easily damaged. Therefore, in the product with a zipper of the present invention, the ease of use and convenience of the zipper can be greatly improved. Therefore, the products of the present invention can be better used in daily necessities such as clothing, footwear, bags, etc., and in addition to daily necessities, they can also be preferably used in products such as industrial materials, various seats such as automobiles or airplanes, etc. Various products. In the zipper-attached product of the present invention as described above, a sliding member opposing area opposite to a part of the sliding member is arranged along the longitudinal direction of the sprocket member mounting edge portion of the sprocket mounting member of the zipper mounted member, The sewing thread of the fixing sewing portion is arranged so as to be exposed on at least a part of the facing surface of the sliding member facing region of the fastener element mounting edge portion. The protection portion that protects the mounting edge portion of the sprocket is formed by a sewing line in a region opposite to the slider. In this way, by forming the protection portion that protects the sprocket mounting edge portion by a sewing line arranged in the opposite area of the slider of the sprocket mounting edge portion, the protection portion can be easily and stably provided. In addition, the protection portion obtained by using the sewing thread can effectively protect the fastener element mounting edge portion of the to-be-attached member from sliding contact with the slider. In this case, in particular, the sewing thread of the fixing sewing portion is used as a protection portion, and the sliding member facing area of the sprocket mounting edge portion is arranged in a zigzag shape. Thereby, it is possible to more effectively protect the fastener element mounting edge portion of the to-be-attached member from sliding contact with the slider. In addition, the slider of the present invention includes: an upper wing plate and a lower wing plate, which are arranged in parallel with each other; a connecting pillar, which connects between the upper wing plate and the lower wing plate; and a flange portion, which is arranged on the upper wing plate. And left and right side edges of at least one of the lower wing panels. In this case, a sliding member facing region is arranged along the longitudinal direction of the sprocket member so as to oppose the flange portion of the sliding member on the sprocket mounting edge portion of the to-be-attached member. Thereby, it is possible to more effectively protect the fastener element mounting edge portion of the fastener attachment member from sliding contact with the flange portion of the slider by using the protection portion formed by the sewing line of the fixing sewing portion. In the product with a zipper of the present invention, the slider has an upper wing plate and a lower wing plate arranged parallel to each other, a connecting post connecting the upper wing plate and the lower wing plate, and the upper wing plate and In the case of the flange portions of the left and right side edge portions of at least one of the lower wing plates, the fastener element may have a flange recess, which is connected to the upper half and the lower half of the fastener element. At least one of them is arranged along the longitudinal direction of the sprocket member, and is arranged corresponding to the position of the flange portion of the slider. In this case, the protection portion that protects the attachment edge portion of the sprocket is formed by a plurality of recessed portions for the flanges of the fastener element. Thereby, when the slider is slid, the flange portion of the slider can be accommodated in the flange recesses formed in the plurality of zipper fastener elements and moved while the flange portion does not directly slide into contact ( (Or it becomes difficult to make sliding contact) on the sprocket mounting edge portion of the fastener-attached member. Therefore, it is possible to effectively prevent the fastener-attachment member from being damaged due to the sliding of the slider. In particular, in this case, the fastener element has a first fastener element portion which includes an engaging head portion of the fastener element which is engaged with the meshing object side, and has an upper wing plate and a lower wing plate in the slider. Dimensions corresponding to the thickness direction of the sprocket; and the second sprocket portion, which extends from the first sprocket portion to the width direction away from the engaging head, and the size of the sprocket thickness direction is relatively small. The first sprocket portion becomes smaller through the step. Thereby, the recessed part for a flange which becomes a protection part can be easily formed in a fastener element by the difference of the thickness thickness dimension of a 1st sprocket part and a 2nd sprocket part. Therefore, by providing the recessed portions for the flanges of the plurality of fastener elements, it is possible to stably protect the fastener element mounting edge portions of the fastener-attaching member from coming into contact with the flange portions of the slider. In the zipper-attached product of the present invention, the fixing sewing portion that fixes the sprocket member to the sprocket mounting edge portion is formed by a lock-type stitch. In particular, the fixing sewing portion of the present invention is formed by meandering in a zigzag manner with respect to the longitudinal direction of the sprocket member. In the case of a product with a zipper provided with the above-mentioned fixed sewing portion, the sprocket member can be easily and stably sewn to the sprocket mounting edge portion of the fastener-attached member by using, for example, a zigzag stitch machine. . Therefore, the zipper-attached product of the present invention can be manufactured stably and inexpensively without reintroducing expensive special equipment. In this case, the protection portion for protecting the sprocket mounting edge portion can be easily formed by the sewing line of the fixing sewing portion, and the protection portion obtained by using the sewing line can be symmetrically formed on the sprocket mounting edge. Both sides of the front (upper surface) and back (lower surface). Therefore, in the case where the flange is used in both the upper wing plate and the lower wing plate, the fastener edge mounting edge portion of the fastener installation member can be more effectively protected from contact with the slider. Furthermore, in the product with a slide fastener of the present invention, the plurality of fastener element elements are each independently formed of a synthetic resin, and are arranged at regular intervals on the fixing member. The fixing sewing portion is formed by repeating a stitch of a specific pattern for each fastener element of the sewing thread. Thereby, the sprocket member is smoothly and stably attached to the sprocket mounting edge portion of the to-be-attached member, and the sprocket row is appropriately formed at the sprocket mounting edge portion. Furthermore, in the zipper-attached product of the present invention, the fastener element mounting edge portion of the fastener element to be mounted is formed by folding the side edge portion of the fastener element to the width direction of the fastener element. This makes it possible to easily increase the strength of the sprocket mounting edge of the fastener-attached member. In addition, by this, the sprocket member is more firmly fixed to the sprocket mounting edge portion of the to-be-attached member, and the position and posture of each sprocket relative to the to-be-attached member can be more stable. Furthermore, by folding back the side edge portion of the fastener-attached member in the width direction of the sprocket member, even if, for example, the side edge of the fastener-attached member (fabric) is flared, the flank can be hidden in the sprocket installation. The back side of the edge is not exposed to the outside. Thereby, the appearance quality (appearance) of the product with a zipper can be improved. Furthermore, it is possible to prevent the side edges from being flared and the meshing of the left and right sprocket rows from being deteriorated, and to prevent the sliding property of the slider from being lowered. Further, in the zipper-attached product of the present invention, each zipper element includes: a main body portion which is fixed to the fixing member; and an engaging portion (neck and engaging head portion described below) which is connected to a chain on the object side. The zipper sprocket of the tooth member is fastened. In addition, the main body portion of the zipper fastener element includes a main body end portion disposed in a partial engagement portion in a plan view or a bottom view, and the size of the main body portion in the longitudinal direction of the sprocket member becomes a fixed size or a random size. As the distance from the engaging portion increases, the decreasing portion extends from the end portion of the main body in a direction away from the engaging portion, and the size of the main body portion in the length direction of the sprocket member decreases as it moves away from the engaging portion. Here, the dimension in the longitudinal direction of the main body portion refers to the dimension in the longitudinal direction between the front surface portion and the rear surface portion of the main body portion in a plan view of the fastener element. Since each fastener element has a decreasing portion as described above, when the sewing portion for fixing the fastener element is formed in a zigzag shape, for example, the sewing thread (lock needle) of the fixing sewing portion can be made. The top line and bottom line of the step) are less likely to overlap the zipper elements. Accordingly, it is possible to prevent the sewing line of the fixing sewing portion from being loosened, and to stably maintain the state where the sprocket member is fixed to the fastener attachment member. Furthermore, it is possible to prevent the meshing of the left and right sprocket rows from being deteriorated due to the sewing thread of the fixing sewing portion overlapping the fastener element, and the sliding property of the slider from being reduced. Secondly, the sprocket member of the present invention can be mounted on the sprocket member of the zipper to-be-installed member, and has: a long fixed member having flexibility; and a plurality of independent zipper sprocket members, which are equally spaced Ground to the fixed member. Each fastener element of a sprocket member has a main body part fixed to a fixing member, and an engaging head part extended from a main body part to the width direction of a sprocket member through a neck part. In addition, the fastener element has a first element including a meshing head and a dimension in a thickness direction of the element is set to a specific size corresponding to, for example, an interval between an upper wing plate and a lower wing plate in the slider; And the second sprocket portion includes at least a part of the main body portion, and the size in the thickness direction of the sprocket is made smaller than that of the first sprocket portion through a step. Furthermore, the fastener element is provided with the recessed part which can accommodate the flange part of a slider by the difference of the thickness thickness dimension of the 1st and 2nd sprocket part. By forming the recesses as described above along the length direction of the sprocket members over the plurality of fastener elements, the flange portion of the slider can be moved within the recesses of the fastener elements when the slider is slid. Thereby, the flange portion of the slider can be prevented from directly slidingly contacting the sprocket mounting edge portion of the fastener-attached member, and the fastener-attached member can be stably protected from contact with the slider. Such a sprocket member of the present invention can be directly fixed to a sprocket mounting edge portion of a member to be attached to a fastener using a sewing machine. When a zipper-containing product is manufactured using the sprocket member of the present invention as described above, the flange portion of the slider can be accommodated in the recessed portion (convex) of each fastener element formed in the sprocket member. The recessed portion for the edge), therefore, the recessed portion of the fastener element functions as a protection portion that protects the attached member of the slide fastener from contact with the slider as described above. Therefore, even if the sliding operation of the slider is repeatedly performed, the flange portion of the slider can be prevented from directly slidingly contacting the sprocket mounting edge portion of the fastener installation member, thereby effectively preventing the zipper from being installed due to sliding of the slider Damage to components. Next, in the method for manufacturing a product with a zipper according to the present invention, first, a sprocket member formed by mounting a fastener member having a specific shape on the fixed member is formed by, for example, injection molding of synthetic resin on the fixed member. Further, a fastener-attached member including a fastener element attaching edge portion is formed separately from the fastener element member. Next, the sewing member is sewn on the produced zipper attachment member and the sprocket member using a sewing machine to form a fixing sewing portion, and the fastener member is directly fixed to the chain of the zipper attachment member by the fixing sewing portion. Tooth mounting edge. Thereby, a sprocket row is formed along the sprocket attachment edge part of the to-be-attached member. Thereafter, by attaching the slider to the sprocket row, for example, a product with a zipper without using a zipper chain can be easily manufactured. As a result, reduction in manufacturing cost, weight reduction, and improvement in flexibility of a product with a zipper can be achieved. In the manufacturing method of the present invention as described above, the sprocket mounting edge portion for fixing the sprocket member to the fastener-attached member is formed in a zigzag manner with respect to the longitudinal direction by the stitches of the lock-type stitches. Sewing section for fixing. With this, the fastener element can be easily and stably fixed to the fastener-attached member. Moreover, even if expensive special equipment is not reintroduced, a product with a zipper can be manufactured inexpensively by using, for example, a common zigzag stitch sewing machine. In this case, the above-mentioned protection portion for protecting the sprocket mounting edge portion can be easily formed by the sewing line of the fixing sewing portion, and the protection portion obtained by the sewing line can be formed symmetrically on the sprocket mounting edge. Both sides of the front (upper surface) and back (lower surface). Therefore, it is possible to more effectively protect the fastener element mounting edge portion of the to-be-attached member from contact with the slider.
以下,一面列舉實施例並參照圖式,一面詳細地說明本發明之較佳之實施形態。再者,本發明不受以下進行說明之實施形態之任何限定,只要與本發明實質上具有相同之構成,且發揮相同之作用效果,則可進行多種變更。 例如,於以下之實施例中,對附有拉鏈之製品為附有拉鏈之衣服之情形進行說明,但本發明之附有拉鏈之製品並不限定於衣服(衣物),還包含鞋類或包類等日用雜貨品、產業用材料等製品、汽車、列車、飛機等之各種座椅類等各種製品。 又,於以下之實施例1或2等中,形成於製品(衣服)之拉鏈形成為具有1個滑件之通常之拉鏈,但於本發明中,亦可將例如2個滑件以特定之朝向安裝於鏈齒排而可逆開或雙開之拉鏈形成於製品。 實施例1 圖1係模式性地表示本實施例1之附有拉鏈之衣服之模式圖。圖2係將於衣服之拉鏈安裝部安裝有鏈齒構件之部分放大而表示之放大俯視圖,圖3係自嚙合對象側之鏈齒構件沿鏈齒構件之寬度方向觀察該部分時之側視圖。圖4係沿圖2所示之IV-IV線之剖視圖。 又,於以下之說明中,所謂前後方向係指平行於滑件之滑動方向之鏈齒構件之長度方向,尤其是,將滑件以使左右鏈齒排嚙合之方式滑動之方向設為前方,將以使左右鏈齒排分離之方式滑動之方向設為後方。 所謂左右方向係指鏈齒構件之寬度方向(或成為拉鏈被安裝構件之布料之寬度方向),例如為正交於滑件之滑動方向、且平行於布料之正面及背面之方向。所謂上下方向係指與前後方向及左右方向正交之方向,例如指正交於布料之正面(上表面)及背面(下表面)之鏈齒構件之厚度方向。尤其是,於以下之情形時,將相對於鏈齒構件配置有滑件之拉片之側之方向設為上方,將其相反側之方向設為下方。 本實施例1之附有拉鏈之製品1係附有拉鏈之衣服(衣物)1,於該衣服1之前身片之開襟部形成有拉鏈。又,於形成在該衣服1中成為開閉部之前身片(尤其是開襟部)之左右布料5配置有分別供安裝左右鏈齒構件10之左右鏈齒安裝緣部2。 於該情形時,構成衣服之開襟部之布料5(亦稱為成衣(garment)布料)成為供安裝鏈齒構件10之拉鏈被安裝構件。因此,本實施例1中形成之拉鏈具有:左右一對拉鏈鏈帶部,其等具備藉由將鏈齒構件10直接固定於衣服之布料5而形成之鏈齒排3;及滑件40,其可使左右拉鏈鏈帶部之鏈齒排3嚙合及分離。 成為拉鏈被安裝構件之布料5具備衣服所必需之性能或性質(柔軟性、厚度、質感、色調等)。於本實施例1中,供縫合鏈齒構件10之布料5係根據衣服之形狀或設計等,而裁剪為特定之形狀及尺寸。此處,相對於通常之先前之拉鏈鏈布之厚度為1.1 mm~1.5 mm,作為本實施例1中使用之拉鏈被安裝構件之布料5、及其他部分之布料係就輕量化之方面而言較薄地形成,例如具有0.2 mm以上且1.0 mm以下、較佳為0.4 mm以上且0.7 mm以下之厚度。 於本實施例1中,設置於布料(拉鏈被安裝構件)5之左右鏈齒安裝緣部2係直線狀地且連續地配置於衣服之前身片中之相互對向之位置(即開襟部之對向緣部)。此處,設置於布料5之鏈齒安裝緣部2係指自構成左右開襟部之布料5之相互對向之對向側端起於鏈齒構件10之寬度方向上朝向該布料5之內側具有特定之尺寸之部分(區域)。因此,布料5之鏈齒安裝緣部2係沿鏈齒構件10之長度方向具有固定之寬度尺寸而形成。該鏈齒安裝緣部2係如下述般由固定用縫製部6之縫製線7刺穿之部分、且與下述之拉鏈鏈齒11之主體部12a相接之部分。 於該情形時,左右鏈齒安裝緣部2係如圖4及圖5所示般,藉由布料5之成為裁剪端部之側緣部向下表面側回折成U字狀而形成。藉由如此形成鏈齒安裝緣部2,鏈齒安裝緣部2係與較薄之布料5之其他部分相比局部更厚地形成,而可提昇鏈齒安裝緣部2之強度。 藉此,即便如下述般固定用縫製部6之縫製線7(下述之面線7a及底線7b)刺穿鏈齒安裝緣部2,鏈齒安裝緣部2亦不易因該縫製線7而被切斷,而可提昇鏈齒安裝緣部2之耐久性。進而,藉由鏈齒安裝緣部2之強度被提昇,而可將鏈齒構件10牢固地固定於該鏈齒安裝緣部2,並且可使固定於鏈齒安裝緣部2之各拉鏈鏈齒11之位置及姿勢穩定。 進而,藉由布料5之側緣部回折成U字狀,而即便例如布料5之側端緣出現綻開,亦可使該綻開隱藏於鏈齒安裝緣部2之背面側,而不露出至外側。藉此,附有拉鏈之衣服1能夠具備良好之外觀品質(表觀)。又,可防止因於布料5之側端緣出現之綻開而左右鏈齒排3之嚙合變差、或滑件40之滑動性(滑動之順暢性)降低。 進而,於本實施例1中,例如亦可於鏈齒安裝緣部2之正面及背面之至少一者、及/或鏈齒安裝緣部2之回折成U字狀之側緣部之內側(上下回折部之間),貼附而安裝未圖示之樹脂膜等補強片構件、或與鏈齒構件10一起縫製。藉此,亦可補強鏈齒安裝緣部2。再者,於本發明中,該衣服之布料之構成並未特別限定,可根據衣服之用途等而適當變更。 於先前之拉鏈中,為了防止滑件自鏈齒排脫離而脫落,通常與鏈齒排之前端及後端鄰接地設置有止擋。另一方面,於本實施例1之情形時,代替於鏈齒排3之前端及後端鄰接地設置止擋,而以重疊於鏈齒排3之前端部及後端部之方式,縫製成為衣服之構成部分之布料片。藉此,該布料片與止擋同樣地發揮功能,可防止滑件40自鏈齒排3之前端及後端脫落。 再者,於本發明中,為了防止滑件40之脫落,亦可使用其他方法。作為防止滑件40之脫落之方法,例如可利用於與鏈齒排3之前端及後端鄰接之位置將止擋成形為特定之形狀、於配置於鏈齒排3之前端部及後端部之拉鏈鏈齒11安裝專用之止擋零件而形成止擋、於鏈齒排3之前端部及後端部接著或熔接樹脂膜、將自鏈齒排3之前端部及後端部延出之布料5之延出部分回折並縫合、於使左右鏈齒排3之前端部及後端部嚙合之狀態下於拉鏈寬度方向上縫合、及代替止擋而設置具備插銷、筒銷、及開尾筒之可分離式嵌插件等。 本實施例1之鏈齒構件10具有:複數個獨立之合成樹脂製之拉鏈鏈齒11(亦單獨稱為拉鏈鏈齒)、及1根固定構件15,其將該等複數個拉鏈鏈齒11以固定之間隔連結。本實施例1之固定構件15係具備可撓性之長條之繩狀構件。又,固定構件15係與長度方向正交之剖面呈大致圓形之構件,尤佳為具有圓形之剖面並且其截面面積於長度方向上成為固定之構件。 作為固定構件15,例如可使用單絲、撚紗(撚繩)、或藉由利用由複數根針織紗針織而成之筒織部將包含被並紗之複數根複絲之芯紗包入而形成之繩體(亦被稱為編織繩)等。 再者,本發明中所使用之固定構件只要可安裝複數個鏈齒,則並無特別限定。又,固定構件之剖面形狀亦可視需要而任意地變更。進而,本發明之鏈齒構件亦可藉由將複數個拉鏈鏈齒利用2根以上之繩狀固定構件連結而形成。 配置於鏈齒構件10之複數個拉鏈鏈齒11係於藉由固定構件15等間隔地連結之狀態下,沿鏈齒構件10之長度方向整齊排列成一行。該等拉鏈鏈齒11係藉由將例如聚醯胺、聚縮醛、聚丙烯、聚對苯二甲酸丁二酯等熱塑性樹脂射出成形至1根固定構件15,而與固定構件15一體地且覆蓋固定構件15之外周全體地形成。 再者,於本發明中,拉鏈鏈齒之材質並非限定於上述合成樹脂,亦可藉由其他合成樹脂或金屬而形成拉鏈鏈齒。又,本實施例1之鏈齒構件10並不限定於將熱塑性樹脂射出成形至固定構件15而形成拉鏈鏈齒11者,亦包含例如使將熱塑性樹脂射出成形而形成為特定之形狀之拉鏈鏈齒藉由熔接或接著等而固著於固定構件15而形成者。 進而,本發明中之鏈齒構件並不限定於如本實施例1般射出成形之合成樹脂製之拉鏈鏈齒11一體地形成於固定構件15而連結者。本發明之鏈齒構件包含例如於繩狀之固定構件進行金屬之壓鑄成形而形成之鏈齒構件、將橫截面呈大致Y形狀之線材(所謂Y桿)切斷而製作鏈齒並且進而將該鏈齒藉由按壓變形而安裝至固定構件而形成之鏈齒構件、對薄板狀之平板構件進行沖裁而製作鏈齒並且進而將該鏈齒藉由按壓變形而安裝至固定構件而形成之鏈齒構件等。 本實施例1之合成樹脂製之拉鏈鏈齒11係如於圖5中將安裝至布料5之前之鏈齒構件10放大而表示般具有:主體部12a,其固定於固定構件15;頸部12b,其自主體部12a於鏈齒構件10之寬度方向上連續地延出並且具有以長度方向之尺寸變細之方式內縮之形狀;嚙合頭部12c,其自頸部12b進而於寬度方向上連續地延出並且於俯視下呈大致橢圓形;及突片部12d(亦稱為肩部),其自頸部12b向長度方向之前方及後方突出為薄板狀。於此種本實施例1之拉鏈鏈齒11中,藉由頸部12b及嚙合頭部12c,而形成與嚙合對象側之鏈齒構件10之拉鏈鏈齒11扣合之嚙合部12g。 於該情形時,主體部12a、頸部12b、及突片部12d之各者之上表面部及下表面部係與厚度方向正交並且相互平行地配置。又,頸部12b之厚度方向之尺寸(以下略記為厚度尺寸)、與主體部12a之厚度尺寸被設定為相同之大小。突片部12d之厚度尺寸被設定為較主體部12a及頸部12b之厚度尺寸更小。 拉鏈鏈齒11之主體部12a具有具備固定之厚度尺寸之大致長方體狀之形態。於該情形時,主體部12a具有:上表面部及下表面部,其等係與厚度方向正交地配置;前表面部及後表面部,其等係朝向長度方向而配置;及側面部(布料對向側面部),其係以與布料5對向之方式朝向與頸部12b之延出方向相反之側而配置,且與布料5對向。 於本實施例1中,主體部12a之上表面部與下表面部係相互平行地配置,主體部12a之前表面部與後表面部係相互平行地配置。再者,於本實施例1中,主體部12a之前表面部與後表面部亦可不相互平行,而是以相互傾斜之位置關係配置。 又,於本實施例1之主體部12a中,配置於上表面部或下表面部與前表面部、後表面部、及側面部之間之各稜線部、或配置於前表面部或後表面部與側面部之間之稜線部係於觀察各個稜線部之剖面時形成為如被實施倒角加工般之帶弧度之平滑之曲面。藉此,於如下述般藉由鋸齒針步縫紉機形成固定用縫製部6而將鏈齒構件10縫製於布料5之鏈齒安裝緣部2時、進而於縫製之後,即便固定用縫製部6之縫製線7接觸於拉鏈鏈齒11之主體部12a,亦可不易損傷該縫製線7。 進而,於主體部12a之與布料5對向地配置之側面部(布料對向側面部),沿鏈齒構件10之長度方向設置有供布料5之鏈齒安裝緣部2之一部分插入之插入凹部12e。該插入凹部12e係以與布料5之鏈齒安裝緣部2之厚度尺寸對應之大小凹設於主體部12a之側面部。插入凹部12e之表面係相對於厚度方向而形成為平滑之彎曲面狀。藉由以布料5之鏈齒安裝緣部2插入於設置於各拉鏈鏈齒11之插入凹部12e之狀態將鏈齒構件10藉由固定用縫製部6而固定於鏈齒安裝緣部2,可將各拉鏈鏈齒11以特定之朝向牢固且穩定地固定於鏈齒安裝緣部2。 於此種拉鏈鏈齒11之主體部12a,固定構件15係沿長度方向貫通,且於以固定構件15之外周面不露出至外部之方式被主體部12a包入之狀態下被保持。於該情形時,固定構件15係保持於主體部12a之厚度方向之中央部。 於拉鏈鏈齒11中之嚙合頭部12c之頂端部(末端部),於厚度方向之中央部,沿長度方向形成有凹槽部12f。該凹槽部12f係以於使左右鏈齒排3嚙合時嚙合對象側之拉鏈鏈齒11之突片部12d可嵌入之方式形成。因此,凹槽部12f之厚度尺寸之最大值被設定為較拉鏈鏈齒11之突片部12d之厚度尺寸更大。 藉由各拉鏈鏈齒11具有如上所述之嚙合頭部12c之凹槽部12f、及前後突片部12d,而於使左右拉鏈鏈齒11嚙合時,可有效地防止出現上下方向之相對性之位置偏移。再者,於本發明中,拉鏈鏈齒11之形狀並無特別限定,可任意地變更。 如上所述之本實施例1之鏈齒構件10係相對於布料5之鏈齒安裝緣部2,於與寬度方向之外側鄰接之位置排列,且藉由固定用縫製部6(固定用縫製線)而固定。於該情形時,固定用縫製部6係藉由鋸齒針步縫紉機之縫製而形成,並且藉由鎖型針步相對於長度方向曲折為鋸齒狀而形成。藉由該固定用縫製部6,而鏈齒構件10以使各拉鏈鏈齒11之主體部12a接觸於布料5之鏈齒安裝緣部2之狀態被固定於鏈齒安裝緣部2。 此處,所謂鋸齒針步縫紉機係指可一面使縫紉機針沿與縫紉機之進給方向交叉之交叉方向擺動,一面將布料5等藉由鎖型針步縫製成鋸齒之縫紉機。再者,有時亦將鋸齒針步縫紉機之縫紉機針之擺動稱為鋸齒擺動。藉由使用此種鋸齒針步縫紉機,並且於該鋸齒針步縫紉機設定例如成為縫紉機針之落針位置之X座標(進給方向之位置)及Y座標(交叉方向之位置)之座標資料而進行縫製,可使於縫製後形成之固定用縫製部6以相對於鋸齒針步縫紉機之進給方向,於上述交叉方向成為鋸齒狀之方式容易地彎曲。 於本實施例1中,藉由鎖型針步而形成之固定用縫製部6之縫製線7具有:面線(針線)7a,其於鏈齒安裝緣部2之正面(第1面)走線並且與固定構件15之正面側半部相接;及底線(梭芯線)7b,其於鏈齒安裝緣部2之背面(第2面)走線並且與固定構件15之背面側半部相接。於該情形時,固定用縫製部6係藉由鎖型針步而形成,因此面線7a與底線7b係除了兩者交叉之部分以外,以於上下方向上相互面對稱之位置關係配置。 鎖型針步之面線7a及底線7b可使用先前之通常之縫紉機線。又,鎖型針步中之面線7a與底線7b係於固定用縫製部6刺穿鏈齒安裝緣部2之刺穿位置(下述之第1刺穿位置18a及第2刺穿位置18b)、及與固定構件15之外周面相接之位置相互交叉(交絡)。 固定用縫製部6之面線7a與底線7b係於厚度方向上,於在鏈齒安裝緣部2之正面走線之面線7a與在鏈齒安裝緣部2之背面走線之底線7b之間之位置相互交叉。尤其是,本實施例1中之面線7a與底線7b係於鏈齒安裝緣部2之厚度方向之中央部分之位置相互交叉。藉此,可使刺穿位置之面線7a與底線7b之交叉部分由鏈齒安裝緣部2保護並且自外部不易看見。再者,厚度方向上之面線7a與底線7b之交叉位置可藉由進行鋸齒針步縫紉機中之面線7a及底線7b之張力控制而容易地變更。 本實施例1之固定用縫製部6係如上述般使用鋸齒針步縫紉機以將面線7a與底線7b交織之鎖型針步之針跡形成。藉此,可使固定用縫製部6刺穿布料5之鏈齒安裝緣部2,並且將鏈齒構件10之固定構件15包入而支持。因此,鏈齒構件10係藉由固定用縫製部6而容易且穩定地安裝並固定於布料5之鏈齒安裝緣部2。 再者,於本實施例1中,亦可藉由固定用縫製部6之面線7a及底線7b刺穿布料5之鏈齒安裝緣部2,並且面線7a及底線7b亦刺穿並保持鏈齒構件10之固定構件15,而將鏈齒構件10安裝至布料5之鏈齒安裝緣部2。 又,藉由使用鋸齒針步縫紉機形成固定用縫製部6,可使縫製後之固定用縫製部6之面線7a及底線7b不易重疊於拉鏈鏈齒11之正面(上表面)及背面(下表面)。藉此,可抑制因固定用縫製部6之面線7a及底線7b重疊於拉鏈鏈齒11,而產生面線7a及底線7b之鬆弛、鏈齒排3之嚙合之順暢性(嚙合容易度)之降低、滑件40之滑動性之降低等不良情況。 本實施例1之固定用縫製部6具有單位走線區域17,該單位走線區域17係鎖型針步之面線7a及底線7b自相對於1個拉鏈鏈齒11於固定構件15之外周面上相互交叉之外周交叉位置走線至下一個於固定構件15之外周面上相互交叉之外周交叉位置為止。藉由該單位走線區域17之線跡於長度方向上每個拉鏈鏈齒11地以特定樣式重複配置,而形成固定用縫製部6。於該情形時,形成本實施例1之固定用縫製部6之各單位走線區域17各具有2個固定用縫製部6刺穿鏈齒安裝緣部2之刺穿位置。 此處,若一面參照圖2,一面對本實施例1之單位走線區域17具體地進行說明,則本實施例1中之固定用縫製部6之面線7a及底線7b係於各單位走線區域17中具有:第1走線部17a,其自面線7a與底線7b於固定構件15之外周面交叉之外周交叉位置配置至最初之第1刺穿位置18a為止;第2走線部17b,其自該第1刺穿位置18a配置至下一第2刺穿位置18b為止;及第3走線部17c,其自第2刺穿位置18b配置至下一外周交叉位置為止。 於該情形時,第1走線部17a係藉由面線7a(或底線7b)自上述外周交叉位置沿寬度方向(或大致寬度方向)走線至對應於拉鏈鏈齒11之側面部之寬度方向之位置為止,進而相對於寬度方向傾斜地走線至第1刺穿位置18a為止而形成。於該情形時,亦存在第1走線部17a之沿寬度方向走線之部分與相對於寬度方向傾斜地走線之部分之交界部相接於拉鏈鏈齒11之主體部12a之情況。 第2走線部17b係藉由面線7a(或底線7b)於第1刺穿位置18a與第2刺穿位置18b之間沿鏈齒構件10之長度方向走線而形成。第3走線部17c係藉由面線7a(或底線7b)自第2刺穿位置18b相對於寬度方向傾斜地走線至對應於拉鏈鏈齒11之側面部之寬度方向之位置為止,進而沿寬度方向(或大致寬度方向)走線至外周交叉位置為止而形成。於該情形時,亦存在第3走線部17c之相對於寬度方向傾斜地走線之部分與沿寬度方向走線之部分之交界部相接於拉鏈鏈齒11之主體部12a之情況。 於如上述般面線7a及底線7b走線而形成固定用縫製部6之情形時,如圖2所示般於自上方觀察鏈齒構件10及布料5之鏈齒安裝緣部2之俯視(或自下方觀察之仰視)下,拉鏈鏈齒11之與鏈齒安裝緣部2相接之側面部(布料對向側面部)、與固定用縫製部6之形成於較拉鏈鏈齒11之側面部進而更靠布料5之內方側之部分以呈等腰梯形之形狀之方式配置。 尤其是,於本實施例1中,使固定用縫製部6刺穿布料5之鏈齒安裝緣部2之第1刺穿位置18a及第2刺穿位置18b自各拉鏈鏈齒11之布料對向側面部朝向寬度方向上之布料5之內側(換言之為與朝向嚙合對象側之拉鏈鏈齒11之方向相反之側之方向)遠離。即,於鏈齒構件10之寬度方向上,固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b與各拉鏈鏈齒11之布料對向側面部之位置之間,設置有固定之間隔。 於該情形時,具體而言,鏈齒構件10之寬度方向上之第1刺穿位置18a及第2刺穿位置18b與各拉鏈鏈齒11之布料對向側面部之位置之間之尺寸(隔開距離)W被設定為0.4 mm以上,較佳為0.8 mm以上。又,於該情形時,上述尺寸(隔開距離)W較佳為被設定為布料5之厚度尺寸以上之大小。 藉由將固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b設定於此種位置,可使固定用縫製部6之面線7a及底線7b相對於拉鏈鏈齒11之正面及背面更不易重疊。又,可較大地確保第1刺穿位置18a及第2刺穿位置18b與鏈齒安裝緣部2之側端緣之間之寬度方向上之間隔。藉此,變得易於穩定地確保鏈齒安裝緣部2之強度,例如可使布料5不易產生如因被面線7a及底線7b摩擦而自第1刺穿位置18a或第2刺穿位置18b朝向鏈齒安裝緣部2之側端緣斷開般之布料5之損傷。 再者,固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b與各拉鏈鏈齒11之布料對向側面部之位置之間之尺寸(隔開距離)W被設定為30 mm以下,較佳為10 mm以下,進而較佳為5 mm以下。藉由設定為此種大小,可利用固定用縫製部6將鏈齒構件10穩定地固定於布料5之鏈齒安裝緣部2,亦能夠有效地防止拉鏈鏈齒11之位置偏移。 進而,於本實施例1中,固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b與各拉鏈鏈齒11之布料對向側面部之位置之間之寬度方向上之尺寸(隔開距離)W被設定為較安裝之滑件40之下述之凸緣部45之寬度方向上之尺寸(參照圖4)更大。即,本實施例1中之固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b配置於較安裝於鏈齒排3之滑件40之凸緣部45之位置更靠滑件40之外側。 此處,若對固定用縫製部6與滑件40之凸緣部45之關係更詳細地進行說明,則於本實施例1中之布料5之左右鏈齒安裝緣部2,如圖4所示般,於鏈齒安裝緣部2之上表面(正面)及下表面(背面)之兩者沿長度方向(鏈齒構件10之長度方向)連續地配置有與沿鏈齒排3滑動之滑件40之凸緣部45相對之凸緣相對區域(滑件相對區域)2a。 本實施例1之固定用縫製部6係如上述般一面相對於長度方向而於寬度方向上回折成鋸齒狀,一面形成(參照圖2)。於該情形時,該固定用縫製部6之縫製線7即面線7a及底線7b係於鏈齒安裝緣部2之上表面及下表面露出,並且橫穿該鏈齒安裝緣部2之上述凸緣相對區域2a而配置。以橫穿該凸緣相對區域2a之方式露出之面線7a及底線7b形成保護鏈齒安裝緣部2而使其不與滑件40之凸緣部45接觸之保護部。於該情形時,縫製線7回折成鋸齒狀而形成之固定用縫製部6係如圖4所示般使寬度方向之尺寸較鏈齒安裝緣部2之凸緣相對區域2a更大地配置。再者,於本發明中,只要固定用縫製部6係遍及鏈齒安裝緣部2之凸緣相對區域2a之寬度方向之全體地配置,則可使其寬度方向之尺寸較實施例1之情形更小。藉由該成為保護部之固定用縫製部6之縫製線7(面線7a及底線7b),可使滑件40之凸緣部45不易直接滑動接觸(或不滑動接觸)於布料5之鏈齒安裝緣部2。 因此,於本實施例1之附有拉鏈之衣服1中,即便反覆進行滑件40之滑動操作,鏈齒安裝緣部2亦變得不易因滑件40之凸緣部45而磨耗。其結果,可抑制鏈齒安裝緣部2因滑件40之滑動而局部地變薄或斷開等鏈齒安裝緣部2之損傷,而鏈齒安裝緣部2變得不易因滑件40而受損。因此,可使鏈齒安裝緣部2之耐久性提昇。 又,於本實施例1中,如圖2所示,固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b係於鏈齒構件10之長度方向上配置於與拉鏈鏈齒11之主體部12a之形成區域對應之範圍內。藉由如此第1刺穿位置18a及第2刺穿位置18b配置於上述範圍內,可將鏈齒構件10利用固定用縫製部6而牢固地固定於布料5之鏈齒安裝緣部2,並且可使鏈齒構件10之長度方向上之各拉鏈鏈齒11之位置相對於鏈齒安裝緣部2不易偏移。 於本實施例1之附有拉鏈之衣服1中,於寬度方向上之各拉鏈鏈齒11之布料對向側面部之位置與固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b之間之區域,連續地形成有用以將固定用縫製部6之面線7a及底線7b以不鬆弛之方式緊固之輔助縫製部8。 尤其是,本實施例1之輔助縫製部8係使用縫紉機,藉由將輔助用面線(針線)與輔助用底線(梭芯線)交織之鎖型針步之針跡,沿鏈齒構件10之長度方向而直線地形成。藉由如此由鎖型針步形成輔助縫製部8,可容易且穩定地形成輔助縫製部8,並且可如下述般穩定地壓抵(緊固)固定用縫製部6之面線7a及底線7b。因此,輔助縫製部8亦可稱為緊固用縫製部。 於該情形時,輔助縫製部8之輔助用面線與輔助用底線係於輔助縫製部8刺穿鏈齒安裝緣部2之刺穿位置、且鏈齒安裝緣部2之厚度方向之中央部分之位置相互交叉(交絡)。再者,厚度方向上之輔助用面線與輔助用底線之交叉位置可藉由進行縫紉機中之輔助用面線及輔助用底線之張力控制而變更。 該輔助縫製部8刺穿鏈齒安裝緣部2之刺穿位置係如上述般配置於拉鏈鏈齒11之布料對向側面部與固定用縫製部6之刺穿位置(第1刺穿位置18a及第2刺穿位置18b)之間之寬度方向上之區域內、換言之為重疊於固定用縫製部6中之上述第1走線部17a及第3走線部17c之區域內。於該區域內,輔助縫製部8之輔助用面線及輔助用底線分別交叉於固定用縫製部6之面線7a及底線7b之上。 藉由形成此種輔助縫製部8,可利用輔助用面線及輔助用底線將固定用縫製部6之面線7a及底線7b自上下朝向鏈齒安裝緣部2(換言之為朝向厚度方向之內側)壓抵。藉此,可藉由輔助縫製部8將固定用縫製部6之面線7a及底線7b緊固地施加張力。 因此,即便固定用縫製部6之面線7a及底線7b出現鬆弛,亦可藉由輔助縫製部8之形成而消除該鬆弛。又,亦能夠有效地防止固定用縫製部6之面線7a及底線7b出現鬆弛。因此,能夠更強有力且牢固地進行利用固定用縫製部6之鏈齒構件10之固定。 進而,於本實施例1中,輔助縫製部8之縫製線7即輔助用面線及輔助用底線之至少一部分係於鏈齒安裝緣部2之上述凸緣相對區域2a內,作為保護鏈齒安裝緣部2而使其不與滑件40之凸緣部45接觸之保護部,沿長度方向配置。藉由如此輔助縫製部8之縫製線7之至少一部分配置於凸緣相對區域2a內,而於進行滑件40之滑動操作時,使滑件40之凸緣部45更不易滑動接觸於布料5之鏈齒安裝緣部2。因此,可更穩定地保護鏈齒安裝緣部2而使其不與滑件40之凸緣部45接觸,其結果,可使鏈齒安裝緣部2之耐久性進而提昇。 又,於本實施例1中,如圖4所示,輔助縫製部8刺穿鏈齒安裝緣部2之刺穿位置係配置於拉鏈鏈齒11之布料對向側面部與固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b之間之寬度方向上之區域內,進而配置於拉鏈鏈齒11之布料對向側面部與固定用縫製部6之刺穿位置之間之寬度方向上之中央位置、或較該中央位置更接近於固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b之位置。藉由如上述般設定輔助縫製部8之刺穿位置,能夠有效地防止於藉由該輔助縫製部8按壓固定用縫製部6之面線7a及底線7b時,固定用縫製部6出現鬆弛。 再者,本實施例1之輔助縫製部8係藉由沿長度方向之直線狀鎖型針步而形成,但於本發明中,只要輔助縫製部可將固定用縫製部6之面線7a及底線7b朝向鏈齒安裝緣部2按壓,則亦可藉由如雙重鏈縫等般之除了鎖型針步以外之針跡形成該輔助縫製部。 如圖1或圖4所模式性地表示般,安裝於本實施例1之鏈齒排3之滑件40具有:滑件主體41;及拉片42,其保持於該滑件主體41。本實施例1之滑件主體41具有:上翼板43;下翼板44,其與上翼板43隔開且平行地配置;未圖示之連結柱,其連結上翼板43與下翼板44之前端部(導入口側端部)間;上下凸緣部45,其等配置於上翼板43及下翼板44之左右側緣部;及拉片安裝部46,其配置於上翼板43之上表面並且保持拉片42。 又,於滑件主體41之前端部,於其間隔著連結柱地形成有左右導入口,於滑件主體41之後端部形成有嚙合口。又,於上翼板43與下翼板44間形成有連通左右導入口與嚙合口之大致Y字形狀之鏈齒引導路徑。進而,於滑件主體41之上下凸緣部45間,與上翼板43及下翼板44平行地形成有使布料5之鏈齒安裝緣部2插通之插通間隙。藉由使用具有如上所述之構造之滑件40,可順利地進行直接固定於衣服1之布料5之鏈齒安裝緣部2之左右鏈齒構件10之嚙合、分離。 其次,對具有如上所述之鏈齒構件10之本實施例1之附有拉鏈之衣服1之製造方法進行說明。 首先,分別準備左右一對鏈齒構件10、及衣服用之布料5。本實施例1之鏈齒構件10係如上述般藉由相對於1根繩狀之固定構件15將合成樹脂直接射出成形而等間隔地形成具有特定之形狀之複數個拉鏈鏈齒11而製作。 另一方面,與鏈齒構件10分開地藉由針織或梭織等製作成為拉鏈被安裝構件之衣服用之布料5。此時,於例如欲對布料5賦予防水性之情形時,亦可對針織而成或梭織而成之布料5塗覆合成樹脂、或者貼附樹脂膜。 繼而,對製作之布料5以成為與衣服1之前身片對應之特定之形狀之方式進行裁剪,而製作成為拉鏈被安裝構件之左右一對前身片用布料5(布料部分)。進而,藉由將左右布料5之經裁剪之側緣部回折成U字狀,而於該布料5形成用以安裝鏈齒構件10之鏈齒安裝緣部2。於該情形時,分別形成於左右一對前身片用布料5之鏈齒安裝緣部2係設置於製造衣服時相互對向地配置之位置。 其次,使用以上述方式製作之鏈齒構件10、及被裁剪為特定之形狀且形成有鏈齒安裝緣部2之布料5,製作附有鏈齒構件之衣服構成部分。 首先,作為第1次縫製步驟,例如圖5所示般,進行將鏈齒構件10使用鋸齒針步縫紉機縫製於布料5之鏈齒安裝緣部2之縫製加工。此時,可一面藉由使用設定有落針位置之座標資料之鋸齒針步縫紉機,對鏈齒構件10與布料5之鏈齒安裝緣部2進行縫製,而形成圖2等所示之固定用縫製部6,一面藉由該固定用縫製部6將鏈齒構件10縫製而固定於布料5之鏈齒安裝緣部2。 其次,作為第2次縫製步驟,對藉由固定用縫製部6而固定有鏈齒構件10之布料5之鏈齒安裝緣部2,進行使用1根針之鎖型針步縫紉機形成輔助縫製部8之縫製。藉此,可於形成有固定用縫製部6之鏈齒安裝緣部2之特定位置,穩定地形成由上述直線狀之鎖型針步構成之輔助縫製部8。 其結果,可將固定用縫製部6之面線7a及底線7b藉由輔助縫製部8而朝向鏈齒安裝緣部2壓抵,因此可將鏈齒構件10更牢固地固定於鏈齒安裝緣部2。藉此,如圖2~圖4所示,製作鏈齒構件10藉由固定用縫製部6及輔助縫製部8而固定於鏈齒安裝緣部2之附有鏈齒構件之衣服之左右衣服構成部分。又,於本實施例1中,除了上述左右一對衣服構成部分以外,製作而準備構成衣服中之左右袖部或後身片之未圖示之衣服構成部分等。 其後,使製作之各部位之衣服構成部分藉由相互縫製等而結合,而組裝成衣服。進而,於將鏈齒構件10固定於布料5之鏈齒安裝緣部2而形成之鏈齒排3,可滑動地安裝滑件40。藉此,穩定地製造如圖1所示般之附有拉鏈之衣服1。 以此方式製造之本實施例1之附有拉鏈之衣服1係衣服1之布料5之一部分不僅構成衣服1,而且亦作為先前之拉鏈中之拉鏈鏈布而發揮功能。因此,於本實施例1之附有拉鏈之衣服1中,能以省略於先前之拉鏈中為必需構成零件之拉鏈鏈布之存在之形態(換言之為無拉鏈鏈布之拉鏈之形態)具有拉鏈之功能。藉此,可降低附有拉鏈之衣服1之製造成本(尤其是材料成本)。又,可將附有拉鏈之衣服1輕量化,並且使衣服之柔軟性提昇。尤其是,於本實施例1之衣服1之情形時,可提昇衣服1之開襟部之布料5之正反方向之柔軟性。 又,於本實施例1之情形時,可於例如對布料5賦予如防水性或撥水性等般之所需之功能之後,將鏈齒構件10直接固定於該布料5。因此,亦可容易地製造具備防水性或撥水性等之高品質之附有拉鏈之衣服1。 進而,於本實施例1之附有拉鏈之衣服1中,保護衣服1之鏈齒安裝緣部2而使其不與滑件40之凸緣部45接觸之保護部係如上述般藉由固定用縫製部6之縫製線7(面線7a及底線7b)、及輔助縫製部8之縫製線7(輔助用面線及輔助用底線)而形成。藉此,即便反覆進行滑件40之滑動操作,亦可抑制因該滑件40之滑動而於衣服之鏈齒安裝緣部2產生之磨耗,而不易損傷布料5。其結果,可提昇衣服1之耐久性(尤其是布料5之鏈齒安裝緣部2之耐久性)。 再者,於上述實施例1之情形時,於附有拉鏈之衣服1之製造中,於將前身片用之布料部分裁剪為特定之形狀之後,進行利用縫製之鏈齒構件10之固定。但是,於本發明中,亦可藉由相對於裁剪前之布料5,藉由縫製將鏈齒構件10固定於特定之位置,其後,將附有鏈齒構件之布料5裁剪為特定之形狀,而製作附有鏈齒構件之衣服構成部分。 又,於本實施例1之鏈齒構件10中,為了將拉鏈鏈齒11以特定之姿勢牢固地固定於布料5之鏈齒安裝緣部2,如上述般於各拉鏈鏈齒11之側面部設置有可插入布料5之鏈齒安裝緣部2之一部分之插入凹部12e。但是,於本發明中,亦可藉由將於側面部未設置插入凹部12e之複數個拉鏈鏈齒一體地形成於固定構件15,而製作鏈齒構件。 進而,於上述實施例1中,如圖2所示,藉由鋸齒針步縫紉機而形成之固定用縫製部6係重複單位走線區域17而形成,該單位走線區域17具有:第1走線部17a及第3走線部17c,其等具有面線7a及底線7b相對於寬度方向傾斜地走線之傾斜部分;以及第2走線部17b,其係面線7a及底線7b沿長度方向走線。尤其是,於該情形時,固定用縫製部6係以拉鏈鏈齒11之布料對向側面部、與固定用縫製部6中之形成於較拉鏈鏈齒11之側面部更靠布料5之內方側之部分於俯視下呈等腰梯形之形狀之方式形成。 但是,於本發明中,固定用縫製部6之單位走線區域17之形狀並不限定於此,亦可使用鋸齒針步縫紉機以其他形狀形成固定用縫製部。例如,如於圖6中表示實施例1之變化例之固定用縫製部6a般,該固定用縫製部6a之單位走線區域19亦可具有:第1走線部19a,其係面線7a及底線7b自於固定構件15之外周面交叉之外周交叉位置沿寬度方向直線狀地走線至最初之第1刺穿位置18a為止;第2走線部19b,其係面線7a及底線7b自第1刺穿位置18a沿長度方向直線狀地走線至下一第2刺穿位置18b為止;以及第3走線部19c,其係面線7a及底線7b自第2刺穿位置18b沿寬度方向直線狀地走線至下一外周交叉位置為止。 藉由重複如圖6所示般之單位走線區域19而形成固定用縫製部6a,亦可使該固定用縫製部6a刺穿布料5之鏈齒安裝緣部2並且以將固定構件15之至少一部分包入之方式支持鏈齒構件10之固定構件15,因此可將鏈齒構件10牢固且穩定地固定於布料5之鏈齒安裝緣部2。又,於該情形時,由於固定用縫製部6a係沿長度方向及寬度方向形成,故而可提昇附有拉鏈之衣服1之表觀或設計性。 [實施例2] 圖7係表示本實施例2之附有拉鏈之衣服之主要部分之俯視圖。圖8係表示本實施例2之鏈齒構件之立體圖。 本實施例2之附有拉鏈之衣服1a係使拉鏈鏈齒21之形態及固定用縫製部6b之線跡之形態與上述實施例1之附有拉鏈之衣服1不同地形成。但是,關於除了其等以外之部分,本實施例2之附有拉鏈之衣服1a係與上述實施例1之附有拉鏈之衣服1實質上同樣地形成。 因此,於本實施例2中,藉由對與上述實施例1實質上具有相同之構成之零件及構件使用相同之符號表示,而省略其說明。又,於下述之實施例3以後之說明中,亦藉由對與其以前所說明之實施例實質上具有相同之構成之零件及構件使用相同之符號表示,而省略其說明。 本實施例2之鏈齒構件20係複數個合成樹脂製之拉鏈鏈齒21以固定之間隔固定於固定構件15而形成。 本實施例2之拉鏈鏈齒21具有:主體部22a,其將固定構件15包入而固定於固定構件15;頸部22b,其自主體部22a延出;嚙合頭部22c,其自頸部22b進而延出;及突片部22d,其自頸部22b向前方及後方呈薄板狀突出。於嚙合頭部22c之末端部,沿長度方向形成有凹槽部22f。於該情形時,拉鏈鏈齒21之頸部22b、嚙合頭部22c、突片部22d、凹槽部22f係與上述實施例1中之拉鏈鏈齒11實質上同樣地形成。因此,於本實施例2之拉鏈鏈齒21中,亦藉由頸部22b及嚙合頭部22c而形成有與嚙合對象側之拉鏈鏈齒11扣合之嚙合部22g。 本實施例2之主體部22a具有:上表面部及下表面部,其等係與厚度方向正交地配置;前表面部及後表面部,其等係朝向長度方向而配置;及側面部(布料對向側面部),其與布料5對向地配置。主體部22a之上表面部與下表面部係相互平行地配置,主體部22a具備固定之厚度尺寸。又,於主體部22a之側面部(布料對向側面部),沿鏈齒構件20之長度方向設置有供布料5之鏈齒安裝緣部2之一部分插入之未圖示之插入凹部。 本實施例2之主體部22a係於拉鏈鏈齒21之俯視下具有:主體末端部23a,其連結於頸部22b並且主體部22a之前表面部與後表面部間之長度尺寸(鏈齒構件20之長度方向上之尺寸)為固定之大小;及遞減部23b,其自主體末端部23a朝向鏈齒安裝緣部2側於寬度方向上延出。該遞減部23b係使主體部22a之前表面部與後表面部間之長度尺寸隨著接近於鏈齒安裝緣部2(或隨著遠離頸部22b)以固定之比例遞減而形成。 由於本實施例2之主體部22a具有如上所述之主體末端部23a及遞減部23b,故而配置於該主體部22a之前表面部及後表面部具有:平行部,其與鏈齒構件20之寬度方向平行;及平面狀之傾斜部,其相對於該寬度方向傾斜地配置。 於本實施例2中,藉由在主體部22a設置有遞減部23b,可使固定鏈齒構件20之固定用縫製部6b之縫製線7(面線7a及底線7b)相對於拉鏈鏈齒21與例如上述實施例1之拉鏈鏈齒11之情形相比更不易重疊。於該情形時,遞減部23b係設置於主體部22a之整體之寬度尺寸之10%以上且90%以下之範圍、較佳為40%以上且85%以下之範圍。 藉由以主體部22a之整體之寬度尺寸之10%以上、較佳為40%以上設置有拉鏈鏈齒21之遞減部23b,能夠更有效地防止固定用縫製部6b之縫製線7重疊於拉鏈鏈齒21。 又,藉由以主體部22a之整體之寬度尺寸之90%以下、較佳為85%以下設置有遞減部23b,可恰當地形成主體部22a之主體末端部23a,並且可藉由主體部22a將固定構件15恰當地包入。藉此,可穩定地確保拉鏈鏈齒21之強度或拉鏈鏈齒21之相對於固定構件15之固著強度。進而,可將固定構件15藉由拉鏈鏈齒21隱藏而不易看見,因此可提昇鏈齒構件20之外觀品質,進而提昇附有拉鏈之衣服1a之外觀品質。 本實施例2之鏈齒構件20係相對於布料5之鏈齒安裝緣部2,與上述實施例1之情形同樣地於與寬度方向之外側鄰接之位置排列,且藉由固定用縫製部6b而固定。雖然本實施例2之固定用縫製部6b之每個拉鏈鏈齒21地形成之單位走線區域27之形態與上述實施例1之情形不同,但是與上述實施例1之情形同樣地具有面線及底線,並且使用鋸齒針步縫紉機相對於長度方向曲折成鋸齒狀而形成。 於本實施例2之情形時,固定用縫製部6b之各單位走線區域27具有固定用縫製部6b刺穿鏈齒安裝緣部2之第1刺穿位置28a及第2刺穿位置28b,該等第1刺穿位置28a及第2刺穿位置28b係於鏈齒構件20之寬度方向上於與拉鏈鏈齒21之側面部之位置之間設置固定之間隔地配置。 本實施例2之固定用縫製部6b係於各單位走線區域27中具有:直線狀之第1走線部27a,其自面線與底線於固定構件15之外周面交叉之外周交叉位置相對於寬度方向傾斜地配置至最初之第1刺穿位置28a為止;直線狀之第2走線部27b,其自該第1刺穿位置28a沿長度方向配置至下一第2刺穿位置28b為止;及直線狀之第3走線部27c,其自第2刺穿位置28b相對於寬度方向傾斜地配置至下一外周交叉位置為止。 藉由如上述般固定用縫製部6b之第1走線部27a及第3走線部27c沿相對於寬度方向傾斜之方向直線狀地形成,可更順利地進行利用鋸齒針步縫紉機之縫製。又,雖然固定用縫製部6b之第1走線部27a及第3走線部27c係沿相對於寬度方向傾斜之方向直線狀地形成,但是藉由在本實施例2之拉鏈鏈齒21之主體部22a設置有如上所述之遞減部23b,可穩定地防止固定用縫製部6b之縫製線7(面線7a及底線7b)重疊或鉤掛於拉鏈鏈齒21。藉此,可防止固定用縫製部6b之縫製線7出現鬆弛,而穩定地維持鏈齒構件20固定於布料5之狀態。 然後,藉由主體部22a具有如上所述之遞減部23b,可使拉鏈鏈齒21接觸於布料5之鏈齒安裝緣部2之接觸區域(接觸面積)較上述實施例1之拉鏈鏈齒11之情形更小。藉此,可減小拉鏈鏈齒21與布料5之鏈齒安裝緣部2之接觸對鏈齒安裝緣部2之柔軟性產生之影響,而更恰當地確保鏈齒安裝緣部2之柔軟性。 如此可更柔軟地形成鏈齒安裝緣部2,藉此可使附有拉鏈之衣服1a之品質提昇。又,於使滑件40向前方滑動時,可於滑件40之鏈齒引導路徑內易於使左右拉鏈鏈齒21嚙合。藉此,可使滑件40之滑動阻力降低,而謀求滑件40之滑動性及操作性之提昇。 又,於本實施例2中,於布料5之左右鏈齒安裝緣部2,與上述實施例1之情形同樣地沿長度方向配置有與滑件40之凸緣部45相對之凸緣相對區域(滑件相對區域)。本實施例2之固定用縫製部6b係作為保護鏈齒安裝緣部2而使其不與滑件40接觸之保護部,橫穿鏈齒安裝緣部2之凸緣相對區域地配置。藉此,即便反覆進行滑件40之滑動操作,亦可使鏈齒安裝緣部2不易因滑件40之凸緣部45而磨耗,因此可提昇鏈齒安裝緣部2之耐久性。 進而,具有如上所述之拉鏈鏈齒21及固定用縫製部6b之本實施例2之附有拉鏈之衣服1a係不介置拉鏈鏈布地形成,因此可獲得與上述實施例1之附有拉鏈之衣服1同樣之效果。 [實施例3] 圖9及圖10係表示本實施例3之附有拉鏈之衣服之主要部分之俯視圖及仰視圖。又,圖11係實施例3之鏈齒構件之剖視圖。 本實施例3之附有拉鏈之衣服1b係使拉鏈鏈齒31之形態與上述實施例1之附有拉鏈之衣服1之拉鏈鏈齒11不同地形成。再者,於本實施例3之附有拉鏈之衣服1b中,除了拉鏈鏈齒31以外之部分係與上述實施例1之附有拉鏈之衣服1實質上同樣地形成。 本實施例3之鏈齒構件30中之各拉鏈鏈齒31具有以厚度方向之大致中心之高度位置為基準而區分之鏈齒上半部(第1鏈齒半部)32及鏈齒下半部(第2鏈齒半部)34。又,鏈齒上半部32與鏈齒下半部34具有互不相同之形狀。即,本實施例3之拉鏈鏈齒31係與上述實施例1之拉鏈鏈齒11及實施例2之拉鏈鏈齒21不同,具有於上下方向上非對稱之形狀。於該情形時,鏈齒上半部32之上表面與鏈齒下半部34之下表面係與厚度方向正交並且相互平行地配置。 本實施例3之鏈齒上半部32具有:上側主體部(第1主體部)32a,其於與鏈齒下半部34之間夾持固定構件15;及前端變細之形狀之上側頭部(第1頭部)32b,其自該上側主體部32a於寬度方向上延出。 上側主體部32a具有:上側主體末端部33a,其連結於上側頭部32b並且具備固定之長度尺寸;及上側遞減部33b,其自該上側主體末端部33a朝向鏈齒安裝緣部2側於寬度方向上延出;上側遞減部33b具有隨著接近於鏈齒安裝緣部2而長度尺寸遞減之形狀。又,上側頭部32b係以於拉鏈鏈齒31之俯視下呈大致三角形之方式,使上側頭部32b之長度尺寸朝向末端部(頂端部)遞減地形成。 本實施例3之鏈齒下半部34具有:下側主體部(第2主體部)34a;下側頸部(第2頸部)34b,其自下側主體部34a於寬度方向上延出並且具有內縮之形狀;及下側嚙合頭部(第2嚙合頭部)34c,其自下側頸部34b進而於寬度方向上延出。於此種本實施例3之鏈齒下半部34中,藉由下側頸部34b及下側嚙合頭部34c而形成與嚙合對象側之拉鏈鏈齒31之鏈齒下半部34扣合之嚙合部34g。 下側主體部34a具有:下側主體末端部35a,其連結於下側頸部34b並且使其長度尺寸朝向鏈齒安裝緣部2側遞增;及下側遞減部35b,其自該下側主體末端部35a朝向鏈齒安裝緣部2側於寬度方向上延出並且長度尺寸隨著接近於鏈齒安裝緣部2而遞減。 於本實施例3之拉鏈鏈齒31中,藉由具備固定之長度尺寸之上側主體末端部33a形成於上側頭部32b,並且使長度尺寸朝向鏈齒安裝緣部2側遞增之下側主體末端部35a形成於下側主體部34a,可恰當地確保拉鏈鏈齒31之相對於固定構件15之固著強度。 進而,於本實施例3之拉鏈鏈齒31中,藉由朝向鏈齒安裝緣部2側使長度尺寸遞減之上側遞減部33b及下側遞減部35b分別形成於上側頭部32b及下側主體部34a,而防止固定鏈齒構件30之固定用縫製部6之縫製線7(面線7a及底線7b)重疊或鉤掛於拉鏈鏈齒31。 尤其是,於本實施例3之拉鏈鏈齒31之情形時,配置於拉鏈鏈齒31之上側遞減部33b及下側遞減部35b之前表面部及後表面部係於拉鏈鏈齒31之俯視下形成為如呈彎曲狀般之曲面,藉此提昇拉鏈鏈齒31之外觀品質。 具有如上所述之拉鏈鏈齒31之本實施例3之附有拉鏈之衣服1b係不介置拉鏈鏈布地形成,因此能夠獲得與上述實施例1之附有拉鏈之衣服1同樣之效果。又,本實施例3之固定用縫製部6係與上述實施例1之情形同樣地亦形成為保護部,因此可保護鏈齒安裝緣部2而使其不與滑件接觸。 [實施例4] 圖12係表示實施例4之附有拉鏈之衣服之主要部分之剖視圖。 於本實施例4之附有拉鏈之衣服1c中,將鏈齒構件10a固定於布料5之鏈齒安裝緣部2之構造與上述實施例1~實施例3之構造(所謂通常類型之拉鏈之構造)不同。即,於本實施例4之附有拉鏈之衣服1c中,以藉由將鏈齒構件10a固定於鏈齒安裝緣部2之背面(下表面)而以鏈齒排自衣服之外表面側不易看見之方式配置之所謂反裝型形成有拉鏈。 若具體地進行說明,則於本實施例4之附有拉鏈之衣服1c中,鏈齒構件10a係藉由固定用縫製部6c而直接固定於左右鏈齒安裝緣部2之下表面。又,滑件50係如下述般形成為反裝型拉鏈用滑件,且可滑動地安裝於鏈齒構件10a之由複數個拉鏈鏈齒11a形成之鏈齒排。 本實施例4中之布料5之鏈齒安裝緣部2係與上述實施例1之鏈齒安裝緣部2同樣地,藉由布料5之側緣部向下表面側回折成U字狀而形成。又,於本實施例4之鏈齒安裝緣部2之上表面,沿長度方向連續地配置有與滑件50之下述之上翼板53之內表面(鏈齒引導表面)相對之滑件相對區域。 本實施例4之鏈齒構件10a具有:複數個獨立之合成樹脂製之拉鏈鏈齒11a;及1根固定構件15,其將該等複數個拉鏈鏈齒11a以固定之間隔連結。於該鏈齒構件10a中,雖然於各拉鏈鏈齒11a未設置配置於上述實施例1之拉鏈鏈齒11之插入凹部12e,但是關於除此以外之構成,本實施例4之鏈齒構件10a係與上述實施例1之鏈齒構件10同樣地形成。 本實施例4之鏈齒構件10a係相對於布料5之鏈齒安裝緣部2,以重疊於鏈齒安裝緣部2之下表面側之狀態,藉由由鎖型針步形成之固定用縫製部6c而固定。於該情形時,固定鏈齒構件10a之固定用縫製部6c係藉由鋸齒針步縫紉機之縫製而形成為鋸齒狀。 又,該固定用縫製部6c係藉由以固定用縫製部6c之縫製線7包裹鏈齒構件10a之固定構件15之方式保持,並且於該固定構件15之左右兩側之位置刺穿鏈齒安裝緣部2,而將鏈齒構件10a固定於布料5之鏈齒安裝緣部2。又,於固定用縫製部6c刺穿鏈齒安裝緣部2之刺穿位置,縫製線7之面線(針線)與底線(梭芯線)相互交叉。 於本實施例4中,固定用縫製部6c之縫製線7係於鏈齒安裝緣部2之上表面一面形成鋸齒狀之線跡,一面沿長度方向配置。於該情形時,形成為鋸齒狀之固定用縫製部6c係以於鏈齒安裝緣部2之上表面露出,並且覆蓋配置於該上表面之上述滑件相對區域之一部分之方式形成。藉由該鋸齒狀之固定用縫製部6c,而形成有保護鏈齒安裝緣部2之上表面使其不與滑件50之一部分(於本實施例4之情形時為下述之上翼板53之一部分)接觸之保護部。 本實施例4之滑件50係如將其一部分示於圖12般具有滑件主體51、及未圖示之拉片。滑件主體51具有:上翼板53;下翼板54,其與上翼板53隔開且平行地配置;未圖示之連結柱,其連結上翼板53與下翼板54之前端部(導入口側端部)間;凸緣部55,其自下翼板54之左右側緣部朝向上翼板53延出;及未圖示之拉片安裝部,其配置於上翼板53之上表面並且保持拉片。 於滑件主體51之前端部,於其間隔著連結柱地形成有左右導入口,於滑件主體51之後端部形成有嚙合口。又,於上翼板53與下翼板54之間,形成有連通左右導入口與嚙合口之大致Y字形狀之鏈齒引導路徑。 如以上般之本實施例4之附有拉鏈之衣服1c係不使用拉鏈鏈布地形成,因此與上述實施例1~實施例3之情形同樣地,可獲得製造成本之削減、衣服之輕量化、及衣服之柔軟性之提昇等效果。又,亦可容易地製造具備防水性或撥水性等之高品質之附有拉鏈之衣服1c。 進而,於本實施例4中,於衣服之鏈齒安裝緣部2之上表面,藉由鋸齒狀之固定用縫製部6c而形成有保護其而使其不與滑件50之上翼板53接觸之保護部,因此可使起因於滑件50之滑動之鏈齒安裝緣部2之損傷不易產生。 [實施例5] 圖13係表示實施例5之附有拉鏈之衣服之主要部分之剖視圖。 於本實施例5之附有拉鏈之衣服1d中,將鏈齒構件10b固定於布料5之鏈齒安裝緣部4之構造係與如上述實施例1~實施例3般之通常類型或如實施例4般之反裝型拉鏈之構造不同。於本實施例5之附有拉鏈之衣服1d中,以複數個拉鏈鏈齒11a及固定鏈齒構件10b之固定用縫製部6d被衣服之布料5覆蓋隱藏而不易看見之所謂隱形類型形成有拉鏈。 若具體地進行說明,則於本實施例5之附有拉鏈之衣服1d中,布料5之側緣部回折成U字狀,僅藉由該回折成之回折部分(回折片部),而形成安裝鏈齒構件10b之鏈齒安裝緣部4。鏈齒構件10b係藉由固定用縫製部6d而直接固定於該回折之鏈齒安裝緣部4之下表面。 於本實施例5中,各拉鏈鏈齒11a之嚙合頭部12c係突出至較布料5之彎折為U字狀之折彎部之位置更靠寬度方向之外側(嚙合對象之鏈齒構件10b側)。又,滑件60係形成為如下述般之具備倒L字型之左右凸緣部65之隱形類型之拉鏈用滑件。該滑件60係可滑動地安裝於鏈齒構件10b之由複數個拉鏈鏈齒11a形成之鏈齒排。 本實施例5中之將布料5回折而形成之鏈齒安裝緣部4具有:下表面,其供固定鏈齒構件10b;及上表面,其配置於該下表面之相反側並且藉由回折之布料5之內周面而形成。於該鏈齒安裝緣部4之上表面,沿長度方向連續地配置有與滑件60中之下述之凸緣部65之橫壁部65b之內表面相對之凸緣相對區域(滑件相對區域)。 本實施例5之鏈齒構件10b具有:複數個獨立之合成樹脂製之拉鏈鏈齒11a;及1根固定構件15,其將該等複數個拉鏈鏈齒11a以固定之間隔固定。本實施例5之拉鏈鏈齒11a雖然未設置如上述實施例1般之插入凹部12e,但是除此以外以與上述實施例1之拉鏈鏈齒11同樣之形狀形成。即,本實施例5之拉鏈鏈齒11a係與上述本實施例4之拉鏈鏈齒11a同樣地形成。 本實施例5之固定構件15係相對於拉鏈鏈齒11a,配置於位移至厚度方向之上側之位置(接近於鏈齒安裝緣部之位置),而並非配置於厚度方向之中央部之位置。於該情形時,固定構件15之外周全體由拉鏈鏈齒11a覆蓋。 本實施例5之鏈齒構件10b係相對於布料5之回折部即鏈齒安裝緣部4,以重疊於該鏈齒安裝緣部4之下表面側之狀態,藉由以鎖型針步形成之固定用縫製部6d而固定。於該情形時,固定鏈齒構件10b之固定用縫製部6d係藉由鋸齒針步縫紉機之縫製而形成為鋸齒狀。 又,該固定用縫製部6d係藉由以固定用縫製部6d之縫製線7包裹鏈齒構件10b之固定構件15之方式保持,並且於該固定構件15之左右兩側之位置刺穿鏈齒安裝緣部4,而將鏈齒構件10b固定於布料5之鏈齒安裝緣部4。又,於固定用縫製部6d刺穿鏈齒安裝緣部4之刺穿位置,縫製線7之面線(針線)與底線(梭芯線)相互交叉。 於本實施例5中,固定用縫製部6d之縫製線7係於鏈齒安裝緣部4之上表面,一面形成鋸齒狀之線跡,一面沿長度方向配置。於該情形時,鋸齒狀地形成於鏈齒安裝緣部4之上表面之固定用縫製部6d係以覆蓋配置於該上表面之上述凸緣相對區域(滑件相對區域)之方式形成。藉由該鋸齒狀之固定用縫製部6d,而形成有保護鏈齒安裝緣部4之上表面使其不與滑件60之凸緣部65接觸之保護部。 本實施例5之滑件60係如將其一部分示於圖13般具有滑件主體61、及未圖示之拉片。滑件主體61具有:下翼板64;倒L字型之左右一對凸緣部65,其等係立設於下翼板64之左右兩側緣部;未圖示之中央柱部,其立設於下翼板64之前端部(導入口側端部)之寬度方向之中央部;突出部63,其自中央柱部之上端部起向與下翼板64平行之方向突出;及未圖示之拉片安裝部,其配置於中央柱部之上表面並且保持拉片。 滑件主體61之凸緣部65具有:縱壁部65a,其自下翼板64之左右兩側緣部立起;及橫壁部65b,其自縱壁部65a之上端部朝向寬度方向之內側延出。又,於滑件主體61中之突出部63與凸緣部65之橫壁部65b之間,形成有使布料5插通之插通間隙。 於滑件主體61之前端部,於其間隔著中央柱部地形成有左右導入口,於滑件主體61之後端部形成有嚙合口。又,連通左右導入口與嚙合口之大致Y字形狀之鏈齒引導路徑係由下翼板64、左右之凸緣部65、及突出部63包圍而形成。 如以上般之本實施例5之附有拉鏈之衣服1d係不使用拉鏈鏈布地形成,因此與上述實施例1~實施例4之情形同樣地,可獲得製造成本之削減、衣服之輕量化、及衣服之柔軟性之提昇等效果。又,亦可容易地製造具備防水性或撥水性等之高品質之附有拉鏈之衣服1d。 進而,於本實施例5中,於鏈齒安裝緣部4之上表面,藉由鋸齒狀之固定用縫製部6d而形成有保護其而使其不與滑件60之凸緣部65(橫壁部65b)接觸之保護部,因此可使起因於滑件60之滑動之鏈齒安裝緣部4之損傷不易產生。 [實施例6] 圖14係表示本實施例6之附有拉鏈之衣服之主要部分之俯視圖。圖15係模式性地說明鏈齒構件與滑件之關係之剖視圖。圖16係表示本實施例6之鏈齒構件之立體圖。 本實施例6之附有拉鏈之衣服1e係使配置於鏈齒構件80之各拉鏈鏈齒81之形態、滑件70之形態、及保護部之形態與上述實施例1之附有拉鏈之衣服1不同地形成,但關於除了其等以外之部分,本實施例6之附有拉鏈之衣服1e係與上述實施例1之附有拉鏈之衣服1實質上同樣地形成。 本實施例6之鏈齒構件80係將射出成形之複數個合成樹脂製之拉鏈鏈齒81以固定之間隔固定於固定構件15而形成。 本實施例6之拉鏈鏈齒81具有以厚度方向之中心位置為基準而於上下方向上對稱之形狀。又,拉鏈鏈齒81具有:主體部82a,其將固定構件15包入而固定於固定構件15;頸部82b,其自主體部82a延出;嚙合頭部82c,其自頸部82b進而延出;及突片部82d,其自頸部82b向前方及後方突出為薄板狀。 於主體部82a之厚度方向之中央部,固定構件15係沿長度方向貫通。於主體部82a之與布料5對向之側面部,沿長度方向形成有供鏈齒安裝緣部2之一部分插入之插入凹部82e。於嚙合頭部82c之末端部,沿長度方向形成有凹槽部82f。 又,本實施例6之拉鏈鏈齒81具有厚度尺寸(厚度方向之尺寸)互不相同之第1鏈齒部83a及第2鏈齒部83b。於該情形時,第1鏈齒部83a之上表面部及下表面部、以及第2鏈齒部83b之上表面部及下表面部係分別由與厚度方向正交之平面形成。 拉鏈鏈齒81之第1鏈齒部83a包含頸部82b之至少一部分及嚙合頭部82c,並且使厚度尺寸較第2鏈齒部83b更大地形成。第1鏈齒部83a之厚度尺寸係對應於滑件70之下述之上翼板73之內表面與下翼板74之內表面之間之上下方向上之間隔而設定。 拉鏈鏈齒81之第2鏈齒部83b係自第1鏈齒部83a經由階差83c而向寬度方向之接近於布料5之方向(換言之為遠離嚙合頭部82c之方向)延出,且包含主體部82a之至少一部分地形成。該第2鏈齒部83b之厚度尺寸係設定為經由上述階差83c而較第1鏈齒部83a之厚度尺寸更小,並且對應於形成於滑件70之下述之上側之凸緣部75與下側之凸緣部75間之插通間隙之大小而設定。 於該情形時,配置於第1鏈齒部83a與第2鏈齒部83b之交界之階差83c係藉由第1鏈齒部83a之厚度尺寸與第2鏈齒部83b之厚度尺寸之差而形成,且對稱地形成於拉鏈鏈齒81之上表面側及下表面側之兩者。 又,於本實施例6之各拉鏈鏈齒81中,藉由上述階差83c之階差面與第2鏈齒部83b之上表面、及藉由上述階差83c之階差面與第2鏈齒部83b之下表面,而分別對應於上側之凸緣部75及下側之凸緣部75之位置而形成有可將滑件70之上側之凸緣部75及下側之凸緣部75分別納入並使其等插通之上下凸緣用凹部83d。於該情形時,如圖15所示,上側之凸緣用凹部83d係於上下方向上形成於較固定構件15之上端更靠上側,進而形成於較保持該固定構件15之固定用縫製部6之位置更靠上側。又,下側之凸緣用凹部83d係於上下方向上形成於較固定構件15之下端更靠下側,進而形成於較保持該固定構件15之固定用縫製部6之位置更靠下側。 本實施例6之滑件70係如將其一部分示於圖15般具有滑件主體71、及保持於該滑件主體71之未圖示之拉片。本實施例1之滑件主體71具有:上翼板73;下翼板74,其與上翼板73隔開且平行地配置;未圖示之連結柱,其連結上翼板73與下翼板74之前端部(導入口側端部)間;上下凸緣部75,其等配置於上翼板73及下翼板74之左右側緣部;及未圖示之拉片安裝部,其配置於上翼板73之上表面並且保持拉片。 於本實施例6之滑件主體71之前端部,於其間隔著連結柱地形成有左右導入口,於滑件主體71之後端部形成有嚙合口。又,於上翼板73與下翼板74間,形成有連通左右導入口與嚙合口之大致Y字形狀之鏈齒引導路徑。進而,於滑件主體71中之上下凸緣部75間,形成有使拉鏈鏈齒81之第2鏈齒部83b插通之插通間隙。 尤其是,本實施例6之滑件主體71係與例如上述實施例1之滑件主體41相比,使左右凸緣部75間之間隔變小,並且使上側之凸緣部75與下側之凸緣部75之間之間隔變大而形成。 又,本實施例6之滑件70中之上下凸緣部75係於與拉鏈鏈齒81之關係中,具有與設置於各拉鏈鏈齒81之上述凸緣用凹部83d對應之形狀及大小。換言之,於針對拉鏈鏈齒81及滑件70之凸緣部75觀察正交於長度方向之剖面時,滑件70之凸緣部75具有與拉鏈鏈齒81之凸緣用凹部83d相同之剖面形狀或對應之剖面形狀。又,滑件70之凸緣部75具有可收容於拉鏈鏈齒81之凸緣用凹部83d內且可扣合於第1鏈齒部83a與第2鏈齒部83b之間之階差83c之大小。 於如上所述之本實施例6之附有拉鏈之衣服1e中,配置於各拉鏈鏈齒81之上表面側及下表面側之各個凸緣用凹部83d係以正交於長度方向之剖面具有固定之形狀之方式形成。如此形成於複數個拉鏈鏈齒81之凸緣用凹部83d係設置為保護衣服之鏈齒安裝緣部2而使其不與滑件70之上下凸緣部75接觸之保護部。 若具體地進行說明,則於等間隔地固定有複數個拉鏈鏈齒81之鏈齒構件80中,藉由形成於各拉鏈鏈齒81之凸緣用凹部83d,而沿鏈齒構件80之長度方向形成可使滑件70之上下凸緣部75通過之通路。藉此,於滑件70之滑動時,上下凸緣部75於與衣服之鏈齒安裝緣部2隔開地配置之拉鏈鏈齒81之凸緣用凹部83d內移動,因此可防止上下凸緣部75直接滑動接觸於衣服之鏈齒安裝緣部2。 因此,於本實施例6之附有拉鏈之衣服1e中,即便反覆進行滑件70之滑動操作,亦不會因該滑件70之滑動而於衣服之鏈齒安裝緣部2產生磨耗,且亦可防止因滑件70之滑動而於固定用縫製部6及輔助縫製部8產生磨耗。因此,可使衣服之耐久性(尤其是布料5之鏈齒安裝緣部2之耐久性)大幅度提昇。 又,本實施例6之附有拉鏈之衣服1e係與上述實施例1~實施例5之情形同樣地不使用拉鏈鏈布地形成,因此可獲得製造成本之削減、衣服之輕量化、及衣服之柔軟性之提昇等效果。進而,亦可容易地製造具備防水性或撥水性等之高品質之附有拉鏈之衣服1e。 再者,於上述實施例1~實施例3及實施例6之附有拉鏈之衣服1、1a、1b、1e中,鏈齒構件10、20、30、80係相對於布料5之鏈齒安裝緣部2,藉由利用鋸齒針步縫紉機形成之鋸齒狀之固定用縫製部6、6b、及利用鎖型針步縫紉機形成之輔助縫製部8,而牢固地固定於與寬度方向之外側鄰接之位置。 但是,於本發明中,例如於圖17中表示實施例1之另一變化例之附有拉鏈之衣服1f般,亦可不形成利用鎖型針步縫紉機而形成之上述輔助縫製部8,而是將鏈齒構件10僅藉由鋸齒狀之固定用縫製部6而固定於布料5之鏈齒安裝緣部2。 又,於該情形時,亦可於形成鋸齒狀之固定用縫製部6之面線(針線)及底線(梭芯線)之至少一者,使用具有芯鞘構造之熔接線(亦稱為熔合線),而並非如上述實施例1般之通常之縫紉機線。於具有該芯鞘構造之熔接線中,熔接線之芯部係藉由即便加熱至特定之溫度以上亦不會熔融之纖維材料、或具備藉由加熱而收縮之熱縮性之纖維材料而形成。熔接線之鞘部係藉由具備藉由加熱至特定之溫度以上而熔融之熱熔性之纖維材料而形成。 於將具有此種芯鞘構造之熔接線用於固定用縫製部6之面線及底線之至少一者之情形時,藉由在固定用縫製部6之形成後進行加熱處理,即便未形成如上述實施例1等之情形般之輔助縫製部8,亦可強有力且牢固地進行利用固定用縫製部6而進行之鏈齒構件10之固定。又,亦能夠有效地防止該固定用縫製部6之面線及底線出現鬆弛。 進而,於本發明中,例如於圖18及圖19中表示實施例1之又一變化例之附有拉鏈之衣服1g般,亦可不形成藉由鎖型針步縫紉機而形成之輔助縫製部8,而是於形成為鋸齒狀之固定用縫製部6之上貼附用以將該固定用縫製部6固定於布料5之鏈齒安裝緣部2之透明之膜構件(帶構件)9。再者,該膜構件9亦可稱為用以固定固定用縫製部6之縫製線7之線固定用膜構件。於該情形時,膜構件9係以被覆包含固定用縫製部6之第1刺穿位置18a及第2刺穿位置18b之固定用縫製部6之至少一部分之方式,貼附於鏈齒安裝緣部2之正面及背面之至少一個面。 藉此,可將固定用縫製部6之面線7a及底線7b之至少一者牢固地固定於鏈齒安裝緣部2。因此,即便於固定用縫製部6之上未形成上述輔助縫製部8,亦可牢固地進行利用固定用縫製部6而進行之鏈齒構件10之固定。 又,於圖18及圖19所示之附有拉鏈之衣服1g中,於鏈齒安裝緣部2之上表面,藉由鋸齒狀之固定用縫製部6而形成有保持其而使其不與滑件40之凸緣部45接觸之保護部。然後,膜構件9係以被覆成為保護部之固定用縫製部6之方式貼附於鏈齒安裝緣部2之上表面及下表面。藉此,膜構件9可與作為保護部而發揮功能之固定用縫製部6一起更穩定地保護衣服之鏈齒安裝緣部2而使其不與滑件40之凸緣部45接觸。 再者,於本發明中,藉由代替貼附如上所述之膜構件9,而於貼附該膜構件9之範圍塗佈或塗覆接著劑,亦可將固定用縫製部6之面線7a及底線7b接著且牢固地固定於鏈齒安裝緣部2。 又,於本發明中,例如亦可使固定用縫製部刺穿布料之鏈齒安裝緣部之刺穿位置自拉鏈鏈齒之布料對向側面部朝向布料之內側較實施例1等之情形離開更遠。於該情形時,於固定用縫製部之各單位走線區域中,亦可以使固定用縫製部刺穿鏈齒安裝緣部之刺穿位置減少至1個而並非如圖2等所示般之2個之形態將固定用縫製部形成為鋸齒狀。又,於各單位走線區域中,亦可將固定用縫製部刺穿鏈齒安裝緣部之刺穿位置增加至例如3個以上。 進而,於上述實施例1~實施例4及實施例6中,布料5之側緣部被回折為U字狀而形成有鏈齒安裝緣部2,藉此鏈齒安裝緣部2之強度提昇。又,於布料5之裁剪端緣(側端緣)出現綻開之情形時,亦可將該綻開隱藏於鏈齒安裝緣部2之背面側而使其看不見。 但是,於本發明中,亦可不將布料5之側緣部回折為U字狀,而是以於寬度方向上筆直地延伸之狀態形成有鏈齒安裝緣部。又,於將布料5之側緣部於寬度方向上筆直地延伸而形成鏈齒安裝緣部之情形時,可藉由在該布料5之側緣部含浸補強劑、或者於布料5之側緣部以將該側緣部包入至內側之方式貼附合成樹脂製之補強用膜構件,而穩定地提昇筆直地形成之鏈齒安裝緣部之強度。 於該情形時,含浸於布料5之補強劑係硬化型接著劑,作為此種補強劑,例如可使用一液硬化型接著劑、二液硬化型接著劑、瞬間接著劑、熱熔型接著劑、乳膠系接著劑、或者藉由紫外線或電子束等而硬化之光硬化型接著劑等。又,貼附於布料5之補強用膜構件係可藉由貼附而提昇布料5之強度之膜狀構件。該補強用膜構件較佳為使用伸縮性較小之膜構件或不伸縮之膜構件。 藉由如此利用補強劑之含浸或補強用膜構件之貼附而補強鏈齒安裝緣部,亦即便例如固定用縫製部之面線及底線刺穿鏈齒安裝緣部,亦可使鏈齒安裝緣部不易因該面線及底線而被切斷,因此可提昇鏈齒安裝緣部之耐久性。 又,由於鏈齒構件被牢固地固定於筆直之狀態之鏈齒安裝緣部,故而可使固定於該鏈齒安裝緣部之各鏈齒之位置及姿勢穩定。進而,藉由在鏈齒安裝緣部含浸補強劑或者貼附補強用膜構件,可使鏈齒安裝緣部之側端緣不易出現線之綻開。Hereinafter, preferred embodiments of the present invention will be described in detail while enumerating examples and referring to the drawings. In addition, the present invention is not limited to the embodiments described below, and can be variously modified as long as it has substantially the same configuration as the present invention and exhibits the same effects. For example, in the following embodiments, the case where the product with a zipper is a garment with a zipper is explained, but the product with a zipper of the present invention is not limited to clothes (clothes), and also includes footwear or bags And other daily-use goods, industrial materials, and other products, such as automobiles, trains, and airplanes. Furthermore, in the following Examples 1 or 2 and the like, the zipper formed on a product (clothing) is formed as a normal zipper having one slider. However, in the present invention, for example, two sliders may be specified by A zipper that can be reversibly opened or double-opened facing the row of teeth is formed on the product. Embodiment 1 FIG. 1 is a schematic view schematically showing a garment with a zipper according to Embodiment 1. FIG. FIG. 2 is an enlarged plan view showing a portion where a sprocket member is mounted on a zipper mounting portion of the clothes, and FIG. 3 is a side view of the sprocket member from the meshing object side when the portion is viewed in the width direction of the sprocket member. FIG. 4 is a sectional view taken along the line IV-IV shown in FIG. 2. In the following description, the front-rear direction refers to the length direction of the sprocket member parallel to the sliding direction of the slider, and in particular, the direction in which the slider slides so as to engage the left and right sprocket rows is set to the front, The direction in which the left and right sprocket rows are separated is set to the rear. The left-right direction refers to the width direction of the sprocket member (or the width direction of the cloth which becomes the member to be mounted on the zipper), for example, a direction orthogonal to the sliding direction of the slider and parallel to the front and back sides of the cloth. The up-and-down direction refers to a direction orthogonal to the front-rear direction and the left-right direction, and for example, refers to the thickness direction of the sprocket member orthogonal to the front (upper surface) and back (lower surface) of the cloth. In particular, in the following cases, the direction of the side where the slider is disposed with respect to the sprocket member is set to the upper direction, and the direction of the opposite side is set to the lower direction. The product 1 with a zipper in this embodiment 1 is a garment (clothing) 1 with a zipper, and a zipper is formed on the opening portion of the body in front of the garment 1. In addition, left and right sprocket attachment edge portions 2 on which the left and right sprocket members 10 are mounted are formed on the left and right fabrics 5 (especially the placket portions) formed before the garment 1 becomes the opening and closing portion. In this case, the cloth 5 (also referred to as a garment cloth) constituting the placket portion of the garment becomes a fastener-attached member for mounting the sprocket member 10. Therefore, the zipper formed in this embodiment 1 has a pair of left and right zipper chain belt portions, which are provided with a sprocket row 3 formed by directly fixing the sprocket member 10 to the cloth 5 of the clothes; and a slider 40, It can engage and disengage the sprocket rows 3 of the left and right zipper chain belt portions. The cloth 5 serving as a fastener-attached member has performances or properties (softness, thickness, texture, color tone, etc.) necessary for clothes. In the first embodiment, the cloth 5 for sewing the sprocket member 10 is cut into a specific shape and size according to the shape or design of the clothes. Here, compared to the thickness of the usual previous zipper chain cloth is 1. 1 mm ~ 1. 5 mm, as the zipper is used in this embodiment 1 is a member of the cloth 5, and other parts of the cloth are formed in terms of weight reduction, such as having 0. 2 mm or more and 1. 0 mm or less, preferably 0. 4 mm or more and 0. Thickness below 7 mm. In the first embodiment, the left and right sprocket attachment edge portions 2 provided on the cloth (zipper attachment member) 5 are linearly and continuously disposed at mutually opposed positions (i.e. Opposite edge). Here, the sprocket mounting edge portion 2 provided on the fabric 5 means that the opposite side ends of the fabric 5 constituting the left and right placket portions are opposite to each other from the width direction of the sprocket member 10 toward the inside of the fabric 5. Part of a specific size (area). Therefore, the fastener element mounting edge portion 2 of the cloth 5 is formed with a fixed width dimension along the length direction of the fastener element 10. The fastener element mounting edge portion 2 is a portion pierced by the sewing thread 7 of the fixing sewing portion 6 as described below, and a portion which is in contact with the main body portion 12 a of the fastener element 11 described below. In this case, as shown in FIG. 4 and FIG. 5, the left and right sprocket attachment edge portions 2 are formed by folding the side edge portion of the cloth 5 that is the cut end portion toward the lower surface side into a U-shape. By forming the sprocket mounting edge portion 2 in this way, the sprocket mounting edge portion 2 is partially thicker than the other portions of the thinner cloth 5, and the strength of the sprocket mounting edge portion 2 can be improved. With this, even if the sewing thread 7 (the upper thread 7a and the lower thread 7b described below) of the fixing sewing portion 6 pierces the sprocket mounting edge portion 2 as described below, the sprocket mounting edge portion 2 is not easily affected by the sewing thread 7 By being cut, the durability of the sprocket mounting edge portion 2 can be improved. Further, the strength of the sprocket mounting edge portion 2 is improved, so that the sprocket member 10 can be firmly fixed to the sprocket mounting edge portion 2, and each fastener element fixed to the sprocket mounting edge portion 2 can be fixed. The position and posture of 11 is stable. Further, the side edge portion of the cloth 5 is folded back into a U-shape, and even if, for example, the side edge of the cloth 5 is flared, the flaring can be hidden on the back side of the fastener element mounting edge portion 2 without being exposed to the outside. . Thereby, the clothes 1 with a zipper can have a good external appearance quality (apparent appearance). In addition, it is possible to prevent the meshing of the left and right sprocket rows 3 from deteriorating due to the flaring of the side edges of the fabric 5, and the sliding property (smoothness of sliding) of the slider 40 to be reduced. Furthermore, in the first embodiment, for example, at least one of the front and back surfaces of the sprocket mounting edge portion 2 and / or the inner side of the U-shaped side edge portion folded back at the sprocket mounting edge portion 2 ( (Between the upper and lower folded portions), and a reinforcing sheet member such as a resin film (not shown) is attached and sewn together with the sprocket member 10. Thereby, the sprocket attachment edge part 2 can also be reinforced. In addition, in the present invention, the composition of the cloth of the clothes is not particularly limited, and can be appropriately changed according to the use of the clothes and the like. In the conventional zipper, in order to prevent the sliding member from detaching from the sprocket row and falling off, usually, stoppers are provided adjacent to the front and rear ends of the sprocket row. On the other hand, in the case of the first embodiment, instead of providing stoppers adjacent to the front end and the rear end of the sprocket row 3, it is sewn to overlap the front end and the rear end of the sprocket row 3 as A piece of cloth that forms part of a garment. Thereby, this cloth piece functions like a stopper, and can prevent the slider 40 from falling off from the front end and the rear end of the sprocket row 3. Furthermore, in the present invention, in order to prevent the slider 40 from falling off, other methods may be used. As a method for preventing the slider 40 from falling off, for example, the stopper can be formed into a specific shape at a position adjacent to the front end and the rear end of the sprocket row 3, and the stopper can be arranged at the front end and the rear end of the sprocket row 3. The fastener element 11 of the zipper is installed with special stopper parts to form a stop. Then, a resin film is welded or welded to the front and rear ends of the sprocket row 3, and the front and rear ends of the sprocket row 3 are extended. The extended part of the fabric 5 is folded back and stitched, stitched in the zipper width direction with the front and rear ends of the left and right sprocket rows 3 meshed, and provided with latches, cylinder pins, and open ends instead of stops. Detachable inserts, etc. The sprocket member 10 of the first embodiment includes a plurality of independent synthetic resin zip fastener elements 11 (also referred to as zip fastener elements individually), and a fixing member 15 that connects the plurality of zip fastener elements 11 Connect at regular intervals. The fixing member 15 of the first embodiment is a long rope-like member having flexibility. Further, the fixing member 15 is a member having a substantially circular cross section orthogonal to the longitudinal direction, and particularly preferably a member having a circular cross section and having a cross-sectional area fixed in the longitudinal direction. As the fixing member 15, for example, a monofilament, a twisted yarn (twisted rope), or a core yarn including a plurality of multifilament yarns that are entangled with each other can be formed by using a knitting portion knitted with a plurality of knitting yarns. Rope body (also known as braided rope) and so on. In addition, the fixing member used in the present invention is not particularly limited as long as a plurality of fastener elements can be attached thereto. The cross-sectional shape of the fixed member may be arbitrarily changed as needed. Furthermore, the sprocket member of the present invention may be formed by connecting a plurality of fastener elements with two or more rope-shaped fixing members. The plurality of fastener elements 11 arranged on the sprocket member 10 are aligned in a row along the length direction of the sprocket member 10 in a state where they are connected at regular intervals by the fixing member 15. The fastener elements 11 are formed by injection molding a thermoplastic resin such as polyamide, polyacetal, polypropylene, polybutylene terephthalate, and the like onto one fixing member 15, and are integrally formed with the fixing member 15 and The outer periphery of the cover fixing member 15 is formed as a whole. Furthermore, in the present invention, the material of the fastener element is not limited to the above-mentioned synthetic resin, and the fastener element may be formed of other synthetic resin or metal. The sprocket member 10 of the first embodiment is not limited to those formed by injecting a thermoplastic resin onto the fixing member 15 to form the fastener element 11, but also includes, for example, a fastener chain in which the thermoplastic resin is injection-molded into a specific shape. The teeth are formed by being fixed to the fixing member 15 by welding or bonding. Furthermore, the sprocket member in the present invention is not limited to those formed by injection molding of synthetic resin-made fastener elements 11 integrally formed on the fixing member 15 and connected. The sprocket member of the present invention includes, for example, a sprocket member formed by die-casting a metal on a rope-shaped fixing member, cutting a wire having a substantially Y-shaped cross section (a so-called Y rod) to produce a sprocket, and further A sprocket member formed by attaching a sprocket to a fixed member by press deformation, a chain formed by punching a thin plate-shaped flat member to produce a sprocket, and further attaching the sprocket to a fixed member by press deformation. Tooth members, etc. The synthetic resin fastener element 11 of the first embodiment is as shown in FIG. 5 in which the element member 10 before being attached to the cloth 5 is enlarged and has: a main body portion 12 a which is fixed to the fixing member 15; a neck portion 12 b , Which continuously extends from the main body portion 12 a in the width direction of the sprocket member 10 and has a shape that is contracted in such a manner that the dimension in the length direction becomes finer; the engaging head portion 12 c extends from the neck portion 12 b to the width direction It extends continuously and has a substantially oval shape in a plan view; and a protruding piece portion 12d (also referred to as a shoulder portion) that protrudes from the neck portion 12b in the front and rear directions in the length direction into a thin plate shape. In such a fastener element 11 of the first embodiment, an engaging portion 12g that is engaged with the fastener element 11 of the fastener element 10 on the object side is formed by the neck portion 12b and the engaging head portion 12c. In this case, the upper surface portion and the lower surface portion of each of the main body portion 12a, the neck portion 12b, and the protruding piece portion 12d are arranged orthogonal to the thickness direction and parallel to each other. The size in the thickness direction of the neck portion 12b (hereinafter abbreviated as the thickness dimension) and the thickness dimension of the main body portion 12a are set to the same size. The thickness dimension of the protruding piece portion 12d is set smaller than the thickness dimensions of the main body portion 12a and the neck portion 12b. The main body portion 12a of the fastener element 11 has a substantially rectangular parallelepiped shape having a fixed thickness dimension. In this case, the main body portion 12a includes: an upper surface portion and a lower surface portion, which are arranged orthogonally to the thickness direction; a front surface portion and a rear surface portion, which are arranged toward the longitudinal direction; and a side portion ( The cloth-facing side portion) is disposed so as to face the cloth 5 toward the side opposite to the extending direction of the neck portion 12b, and is opposed to the cloth 5. In the first embodiment, the upper surface portion and the lower surface portion of the main body portion 12a are arranged parallel to each other, and the front surface portion and the rear surface portion of the main body portion 12a are arranged parallel to each other. In addition, in the first embodiment, the front surface portion and the rear surface portion of the main body portion 12a may not be parallel to each other, but may be arranged in a positional relationship inclined to each other. In addition, in the main body portion 12a of the first embodiment, each ridge line portion is disposed between the upper surface portion or the lower surface portion and the front surface portion, the rear surface portion, and the side surface portion, or is disposed on the front surface portion or the rear surface. The ridgeline portion between the portion and the side surface portion is formed as a smooth curved surface with an radian like being chamfered when the cross section of each ridgeline portion is observed. Thereby, when the sprocket member 10 is sewn to the sprocket mounting edge portion 2 of the cloth 5 by the zigzag stitch sewing machine as described below, and even after the sewing, The sewing thread 7 is in contact with the main body portion 12a of the fastener element 11, and the sewing thread 7 is not easily damaged. Further, in the side surface portion (fabric facing side portion) of the main body portion 12a which is disposed to face the cloth 5, an insertion portion for inserting a part of the sprocket mounting edge portion 2 of the cloth 5 along the longitudinal direction of the sprocket member 10 is provided. Concave portion 12e. The insertion recessed portion 12 e is recessed in a side portion of the main body portion 12 a with a size corresponding to the thickness dimension of the sprocket mounting edge portion 2 of the cloth 5. The surface of the insertion recessed portion 12e is formed into a smooth curved surface shape with respect to the thickness direction. The sprocket member 10 is fixed to the sprocket mounting edge portion 2 by the fixing sewing portion 6 in a state where the sprocket mounting edge portion 2 of the cloth 5 is inserted into the insertion recessed portion 12 e provided in each fastener element 11. Each fastener element 11 is firmly and stably fixed to the fastener element attachment edge part 2 in a specific direction. In the main body portion 12a of such fastener element 11, the fixing member 15 penetrates in the longitudinal direction and is held in a state of being enclosed by the main body portion 12a so that the outer peripheral surface of the fixing member 15 is not exposed to the outside. In this case, the fixing member 15 is held at the center portion in the thickness direction of the main body portion 12a. A groove portion 12f is formed in a top end portion (end portion) of the engaging head portion 12c in the fastener element 11 in a central portion in the thickness direction along the longitudinal direction. The recessed portion 12f is formed so that the protruding piece portion 12d of the fastener element 11 on the object side can be fitted when the left and right sprocket rows 3 are meshed. Therefore, the maximum value of the thickness dimension of the groove portion 12f is set to be larger than the thickness dimension of the protruding piece portion 12d of the fastener element 11. Since each fastener element 11 has the recessed portion 12f of the engaging head portion 12c and the front and rear protruding piece portions 12d as described above, when the left and right fastener elements 11 are engaged, the relativity in the vertical direction can be effectively prevented. Its position is offset. In the present invention, the shape of the fastener element 11 is not particularly limited, and can be arbitrarily changed. As described above, the sprocket member 10 of the first embodiment is aligned with the sprocket mounting edge portion 2 of the cloth 5 at a position adjacent to the outer side in the width direction, and is fixed by the fixing sewing portion 6 (fixing sewing thread). ) And fixed. In this case, the fixing sewing portion 6 is formed by sewing with a zigzag stitch step sewing machine, and is formed by zigzag-stitching the zigzag shape with respect to the longitudinal direction. With this fixing sewing portion 6, the sprocket member 10 is fixed to the sprocket mounting edge portion 2 in a state where the main body portion 12a of each fastener element 11 contacts the sprocket mounting edge portion 2 of the cloth 5. Here, the zigzag stitching sewing machine refers to a sewing machine capable of swinging the sewing machine needle in an intersecting direction intersecting with the feeding direction of the sewing machine, and sewing the cloth 5 or the like into a zigzag by a lock-type stitching. In addition, the wobble of the sewing machine needle of a zigzag stitch machine is sometimes referred to as a zigzag wobble. The use of such a zigzag step sewing machine and setting of coordinate data such as the X coordinate (position in the feed direction) and Y coordinate (position in the crossing direction) to become the needle drop position of the sewing machine are performed on the zigzag step sewing machine. For the sewing, the fixing sewing portion 6 formed after the sewing can be easily bent so that the feeding direction of the zigzag stitch sewing machine becomes zigzag in the above-mentioned crossing direction. In the first embodiment, the sewing thread 7 of the fixing sewing portion 6 formed by the lock stitch step has a face thread (needle thread) 7a, which runs on the front surface (first surface) of the sprocket mounting edge portion 2. Thread and contact the front half of the fixing member 15; and the bottom thread (bobbin thread) 7b, which runs on the back (second surface) of the sprocket mounting edge portion 2 and matches the rear half of the fixing member 15 Pick up. In this case, since the fixing sewing portion 6 is formed by a lock stitch, the upper thread 7a and the lower thread 7b are arranged in a positional relationship with each other in the vertical direction except for a portion where the upper thread 7a and the lower thread 7b intersect. For the upper thread 7a and the lower thread 7b of the lock-type stitches, a conventional sewing machine thread can be used. In addition, the upper thread 7a and the lower thread 7b in the lock stitch step are connected to the piercing position where the fixing sewing portion 6 pierces the sprocket mounting edge portion 2 (the first piercing position 18a and the second piercing position 18b described below) ), And the positions in contact with the outer peripheral surface of the fixing member 15 intersect (intersect). The upper thread 7a and the lower thread 7b of the fixing sewing portion 6 are in the thickness direction, and the upper thread 7a that is routed on the front of the sprocket mounting edge 2 and the bottom thread 7b that is routed on the back of the sprocket mounting edge 2 The locations intersect each other. In particular, the upper line 7a and the lower line 7b in the first embodiment intersect each other at positions in the central portion in the thickness direction of the sprocket mounting edge portion 2. Thereby, the crossing portion of the upper line 7a and the lower line 7b at the puncturing position can be protected by the sprocket mounting edge portion 2 and difficult to be seen from the outside. The intersection position of the upper thread 7a and the lower thread 7b in the thickness direction can be easily changed by controlling the tension of the upper thread 7a and the lower thread 7b in the zigzag stitch machine. The fixing sewing portion 6 of the first embodiment is formed using a zigzag stitch machine as described above to form stitches of a lock-type stitch that interlaces the upper thread 7a and the lower thread 7b. This allows the fixing sewing portion 6 to pierce through the fastener element mounting edge portion 2 of the cloth 5 and to enclose and support the fixing member 15 of the fastener element 10. Therefore, the sprocket member 10 is easily and stably mounted and fixed to the sprocket mounting edge portion 2 of the cloth 5 by the fixing sewing portion 6. Furthermore, in the first embodiment, the upper thread 7a and the lower thread 7b of the fixing sewing portion 6 may pierce the sprocket mounting edge portion 2 of the cloth 5, and the upper thread 7a and the lower thread 7b are also pierced and held. The fixing member 15 of the sprocket member 10 is attached to the sprocket mounting edge portion 2 of the cloth 5. In addition, by forming the fixing sewing portion 6 using a zigzag needle-step sewing machine, the upper thread 7a and the lower thread 7b of the fixed sewing portion 6 after sewing can be prevented from easily overlapping the front surface (upper surface) and the back surface (lower surface) of the fastener element 11. surface). Accordingly, it is possible to prevent the upper thread 7a and the lower thread 7b of the fixing sewing portion 6 from overlapping on the fastener element 11, thereby causing the upper thread 7a and the lower thread 7b to slacken and the smoothness of the meshing of the fastener element row 3 (easiness of meshing) Such as lowering of the sliding properties of the slider 40 and the like. The fixing sewing part 6 of the first embodiment has a unit threading area 17 which is the upper thread 7a and the lower thread 7b of the lock stitch step from the outer periphery of the fixing member 15 relative to one zipper element 11 The lines intersect each other at the outer-peripheral crossing position on the plane until the next inter-peripheral crossing position on the outer peripheral surface of the fixing member 15. The stitches of the unit threading area 17 are repeatedly arranged in a specific pattern for each fastener element 11 in the longitudinal direction to form a fixing sewing portion 6. In this case, each of the unit threading regions 17 forming the fixing sewing portion 6 of the first embodiment has two puncturing positions where the fixing sewing portions 6 pierce the sprocket mounting edge portion 2. Here, referring to FIG. 2, the unit threading area 17 of the first embodiment will be specifically described. The upper thread 7 a and the lower thread 7 b of the fixing sewing portion 6 in the first embodiment are attached to each unit. The routing area 17 includes: a first routing portion 17a, which is arranged from the top line 7a and the bottom line 7b to the outer peripheral intersection of the fixing member 15 to the first first puncture position 18a; the second routing The portion 17b is arranged from the first piercing position 18a to the next second piercing position 18b; and the third routing portion 17c is arranged from the second piercing position 18b to the next outer peripheral crossing position. In this case, the first routing portion 17a is routed in the width direction (or approximately the width direction) from the above-mentioned outer peripheral crossing position to the width corresponding to the side portion of the fastener element 11 by the upper line 7a (or the bottom line 7b). It is formed up to the position in the direction, and is further inclined to the width direction to the first piercing position 18a. In this case, there may be a case where a boundary portion between the portion of the first routing portion 17a that is routed in the width direction and the portion that is routed obliquely to the width direction is connected to the main body portion 12a of the fastener element 11. The second wiring portion 17b is formed by running the upper thread 7a (or the lower thread 7b) along the length direction of the sprocket member 10 between the first piercing position 18a and the second piercing position 18b. The third threading portion 17c is inclinedly routed from the second piercing position 18b to the width direction by the upper thread 7a (or the lower thread 7b) to a position corresponding to the width direction of the side surface portion of the fastener element 11, and further along It is formed by running in the width direction (or approximately the width direction) to the position where the outer periphery intersects. In this case, there may be a case where the boundary portion between the portion of the third wiring portion 17c that is slanted with respect to the width direction and the portion that runs along the width direction is connected to the main body portion 12a of the fastener element 11. When the upper thread 7a and the lower thread 7b are routed as described above to form the fixing sewing portion 6, as shown in FIG. 2, the plan view of the sprocket mounting edge portion 2 of the sprocket member 10 and the fabric 5 is viewed from above as shown in FIG. 2 ( (Or viewed from below)), the side surface portion (fabric facing side portion) of the fastener element 11 that is in contact with the sprocket mounting edge portion 2 and the fixing sewing portion 6 are formed on the side of the fastener element 11 The portion is further arranged on the inner side of the cloth 5 in an isosceles trapezoidal shape. In particular, in the first embodiment, the first sewing position 18a and the second puncture position 18b of the sprocket mounting edge portion 2 of the cloth 5 are pierced by the fixing sewing portion 6 to face the cloth of each fastener element 11 The side portion is away from the inside of the cloth 5 in the width direction (in other words, the direction opposite to the direction facing the fastener element 11 on the meshing target side). That is, in the width direction of the sprocket member 10, between the first piercing position 18a and the second piercing position 18b of the fixing sewing portion 6 and the position where the cloth of each fastener element 11 faces the side portion, is provided. Fixed interval. In this case, specifically, the dimension between the first piercing position 18a and the second piercing position 18b in the width direction of the sprocket member 10 and the position of the cloth facing side portions of each fastener element 11 ( Separation distance) W is set to 0. 4 mm or more, preferably 0. 8 mm or more. also, In that case, The size (distance) W is preferably set to a size equal to or greater than the thickness dimension of the cloth 5. By setting the first piercing position 18a and the second piercing position 18b of the fixing sewing portion 6 at such positions, The upper thread 7a and the lower thread 7b of the fixing sewing portion 6 can be made less likely to overlap the front and back surfaces of the fastener element 11. also, The distance in the width direction between the first piercing position 18a and the second piercing position 18b and the side edge of the sprocket mounting edge portion 2 can be sufficiently secured. With this, It becomes easy to stably secure the strength of the sprocket mounting edge portion 2, For example, it is possible to make the cloth 5 less prone to being broken by the upper thread 7a and the lower thread 7b, and the cloth 5 is cut off from the first piercing position 18a or the second piercing position 18b toward the side edge of the fastener element mounting edge portion 2. damage. Furthermore, The size (separation distance) W between the first piercing position 18a and the second piercing position 18b of the fixing sewing portion 6 and the position of the cloth facing side portion of each fastener element 11 is set to 30 mm or less, Preferably below 10 mm, It is more preferably 5 mm or less. By setting to this size, The sprocket member 10 can be stably fixed to the sprocket mounting edge portion 2 of the cloth 5 by the fixing sewing portion 6, It is also possible to effectively prevent the positional displacement of the fastener element 11. and then, In this embodiment 1, The dimension (separation distance) W in the width direction between the first piercing position 18a and the second piercing position 18b of the fixing sewing portion 6 and the position of the cloth facing side portions of each fastener element 11 is set to It is larger than the dimension (refer FIG. 4) of the flange part 45 of the attached slider 40 in the width direction mentioned later. which is, In the first embodiment, the first piercing position 18a and the second piercing position 18b of the fixing sewing portion 6 are disposed closer to the slider 40 than the position of the flange portion 45 of the slider 40 attached to the sprocket row 3. Outside side. Here, If the relationship between the fixing sewing portion 6 and the flange portion 45 of the slider 40 is described in more detail, Then, the left and right sprocket mounting edge portions 2 of the cloth 5 in this embodiment 1, As shown in Figure 4, On both the upper surface (front surface) and the lower surface (rear surface) of the sprocket mounting edge portion 2 are disposed continuously along the longitudinal direction (the longitudinal direction of the sprocket member 10) the slider 40 sliding along the sprocket row 3. A flange facing area (slider facing area) 2a facing the flange portion 45. As described above, the sewing portion 6 for fixing is folded back into a zigzag shape in the width direction with respect to the length direction, as described above. One side is formed (see FIG. 2). In that case, The upper thread 7a and the lower thread 7b of the sewing line 7 of the fixing sewing portion 6 are exposed on the upper and lower surfaces of the sprocket mounting edge portion 2, And it is arrange | positioned across the said flange opposing area | region 2a of this sprocket attachment edge part 2. The upper line 7a and the lower line 7b exposed so as to cross the flange opposing area 2a form a protection portion that protects the sprocket mounting edge portion 2 from contact with the flange portion 45 of the slider 40. In that case, As shown in FIG. 4, the fixing sewing portion 6 formed by folding the sewing line 7 back into a zigzag shape has a dimension in the width direction larger than the flange facing area 2 a of the sprocket mounting edge portion 2. Furthermore, In the present invention, As long as the fixing sewing portion 6 is disposed over the entire width direction of the flange facing region 2a of the sprocket mounting edge portion 2, Then, the size in the width direction can be made smaller than in the case of the first embodiment. With the sewing thread 7 (the upper thread 7a and the lower thread 7b) of the fixing sewing portion 6 serving as the protective portion, The flange portion 45 of the slider 40 can be prevented from directly slidingly contacting (or not slidingly contacting) the sprocket mounting edge portion 2 of the cloth 5. therefore, In the clothing 1 with a zipper in this embodiment 1, Even if the sliding operation of the slider 40 is repeatedly performed, The sprocket mounting edge portion 2 also becomes less prone to wear due to the flange portion 45 of the slider 40. the result, It is possible to prevent damage to the sprocket mounting edge portion 2 such as the thinning or disconnection of the sprocket mounting edge portion 2 due to sliding of the slider 40, On the other hand, the sprocket mounting edge portion 2 becomes less likely to be damaged by the slider 40. therefore, The durability of the sprocket mounting edge portion 2 can be improved. also, In this embodiment 1, as shown in picture 2, The first piercing position 18 a and the second piercing position 18 b of the fixing sewing portion 6 are arranged in the lengthwise direction of the sprocket member 10 within a range corresponding to the area where the main body portion 12 a of the fastener element 11 is formed. Since the first puncture position 18a and the second puncture position 18b are arranged within the above range, The sprocket member 10 can be firmly fixed to the sprocket mounting edge portion 2 of the cloth 5 by the fixing sewing portion 6, Moreover, the position of each fastener element 11 in the longitudinal direction of the sprocket member 10 with respect to the fastener element mounting edge portion 2 can be made difficult to shift. In the clothing 1 with a zipper in this embodiment 1, The area between the position of the cloth facing side portions of each fastener element 11 in the width direction and the first piercing position 18a and the second piercing position 18b of the fixing sewing part 6, The auxiliary sewing portion 8 is continuously formed to fasten the upper thread 7a and the lower thread 7b of the fixing sewing portion 6 without loosening. especially, The auxiliary sewing section 8 of the first embodiment uses a sewing machine. By interlocking the stitches of the upper thread (needle thread) with the auxiliary thread (bobbin thread), It is formed linearly along the longitudinal direction of the sprocket member 10. By forming the auxiliary sewing portion 8 by the lock stitch in this way, The auxiliary sewing portion 8 can be easily and stably formed, In addition, the upper thread 7a and the lower thread 7b of the fixing sewing portion 6 can be stably pressed (fastened) as described below. therefore, The auxiliary sewing portion 8 may also be referred to as a fastening sewing portion. In that case, The auxiliary upper thread and the auxiliary lower thread of the auxiliary sewing portion 8 are connected to the puncture position at which the auxiliary sewing portion 8 penetrates the sprocket mounting edge portion 2, Further, the positions of the central portions in the thickness direction of the sprocket mounting edge portion 2 cross (intersect) each other. Furthermore, The crossing position of the auxiliary upper thread and the auxiliary lower thread in the thickness direction can be changed by controlling the tension of the auxiliary upper thread and the auxiliary lower thread in the sewing machine. The piercing position of the auxiliary sewing portion 8 piercing the sprocket mounting edge portion 2 is the piercing position of the cloth facing side portion of the fastener element 11 and the fixing sewing portion 6 as described above (the first piercing position 18a). And the second puncture position 18b), In other words, it is the area which overlaps the said 1st threading part 17a and the 3rd threading part 17c in the fixing sewing part 6. As shown in FIG. Within this area, The auxiliary upper thread and the auxiliary lower thread of the auxiliary sewing portion 8 cross the upper thread 7a and the lower thread 7b of the fixing sewing portion 6, respectively. By forming such an auxiliary sewing portion 8, The upper thread 7a and the lower thread 7b of the fixing sewing portion 6 can be pressed against the sprocket mounting edge portion 2 (in other words, toward the inner side in the thickness direction) with the auxiliary upper thread and auxiliary lower thread. With this, The upper thread 7a and the lower thread 7b of the fixing sewing portion 6 can be tightly applied with tension by the auxiliary sewing portion 8. therefore, Even if the upper thread 7a and the lower thread 7b of the fixing sewing portion 6 are loosened, This slack can also be eliminated by forming the auxiliary sewing portion 8. also, It is also possible to effectively prevent the upper thread 7a and the lower thread 7b of the fixing sewing portion 6 from being loosened. therefore, The sprocket member 10 by the fixing sewing part 6 can be fixed more strongly and firmly. and then, In this embodiment 1, At least a part of the sewing thread 7 of the auxiliary sewing portion 8, that is, the auxiliary upper thread and the auxiliary bottom thread is in the above-mentioned flange facing region 2 a of the sprocket mounting edge portion 2, As a protection portion that protects the sprocket mounting edge portion 2 from contact with the flange portion 45 of the slider 40, Arranged along the length. In this way, at least a part of the sewing line 7 of the auxiliary sewing portion 8 is arranged in the flange opposing area 2a, During the sliding operation of the slider 40, The flange portion 45 of the slider 40 is made more difficult to slidingly contact the sprocket mounting edge portion 2 of the cloth 5. therefore, The sprocket mounting edge portion 2 can be more stably protected from contact with the flange portion 45 of the slider 40, the result, The durability of the sprocket mounting edge portion 2 can be further improved. also, In this embodiment 1, As shown in Figure 4, The piercing position where the auxiliary sewing portion 8 pierces the sprocket mounting edge portion 2 is the first piercing position 18a and the second piercing position 18b of the cloth facing side portion of the fastener element 11 and the fixing sewing portion 6 In the area in the width direction, Furthermore, it is arrange | positioned at the center position in the width direction between the cloth facing side part of the fastener element 11, and the piercing position of the fixing sewing part 6, Or it is closer to the position of the 1st piercing position 18a and the 2nd piercing position 18b of the fixing sewing part 6 than this center position. By setting the puncture position of the auxiliary sewing portion 8 as described above, This can effectively prevent the upper thread 7a and the lower thread 7b of the fixing sewing portion 6 from being pressed by the auxiliary sewing portion 8, The fixing sewing portion 6 is loosened. Furthermore, The auxiliary sewing portion 8 of this embodiment 1 is formed by a linear lock-type stitch step along the length direction. But in the present invention, As long as the auxiliary sewing portion can press the upper thread 7a and the lower thread 7b of the fixing sewing portion 6 toward the fastener element mounting edge portion 2, The auxiliary sewing portion can also be formed by stitches other than the lock stitches, such as double chain stitching. As shown schematically in Figure 1 or Figure 4, The slider 40 mounted on the sprocket row 3 of this embodiment has: Slider body 41; And pull tab 42, It is held on the slider body 41. The slider body 41 of this embodiment 1 has: Upper wing plate 43; Lower wing 44 It is spaced from the upper wing plate 43 and arranged in parallel; Links not shown, It is connected between the upper end plate 43 and the front end portion (inlet port side end portion) of the lower wing plate 44; The upper and lower flange portions 45, They are arranged on the left and right side edges of the upper wing plate 43 and the lower wing plate 44; And pull-tab mounting section 46, It is arranged on the upper surface of the upper wing plate 43 and holds the pull tab 42. also, At the front end of the slider body 41, Left and right inlets are formed at a distance between the connecting pillars, An engaging opening is formed at the rear end of the slider body 41. also, A substantially Y-shaped sprocket guide path is formed between the upper wing plate 43 and the lower wing plate 44 and connects the left and right introduction openings and the engagement openings. and then, Between the upper and lower flange portions 45 of the slider body 41, An insertion gap is formed in parallel with the upper wing plate 43 and the lower wing plate 44 for inserting the sprocket mounting edge portion 2 of the cloth 5. By using the slider 40 having the configuration as described above, The meshing of the left and right sprocket members 10 of the sprocket mounting edge 2 directly fixed to the cloth 5 of the clothes 1 can be smoothly performed, Separation. Secondly, The manufacturing method of the zippered clothing 1 of this Example 1 which has the sprocket member 10 as mentioned above is demonstrated. First of all, Prepare a pair of left and right sprocket members 10, And clothing for cloth 5. The sprocket member 10 of the first embodiment is manufactured by directly injecting and molding synthetic resin with respect to one rope-shaped fixing member 15 to form a plurality of fastener elements 11 having a specific shape at regular intervals. on the other hand, Separately from the sprocket member 10, knitting or weaving is used to fabricate a cloth 5 for clothes to be a member to be attached to a zipper. at this time, When, for example, it is desired to impart water resistance to the cloth 5, It is also possible to coat knitted or woven fabric 5 with synthetic resin, Or attach a resin film. Then, The fabric 5 is cut so as to have a specific shape corresponding to the previous figure of the clothing 1, On the other hand, a pair of left and right front panel pieces 5 (fabric portions) to be a fastener-attached member are produced. and then, By folding back the cut side edges of the left and right fabrics 5 into a U shape, A sprocket mounting edge portion 2 for mounting the sprocket member 10 is formed on the cloth 5. In that case, The sprocket attachment edge portions 2 respectively formed on the left and right pair of front panel fabrics 5 are provided at positions where they face each other when manufacturing clothes. Secondly, Using the sprocket member 10 manufactured in the above manner, And a cloth 5 cut into a specific shape and having a sprocket mounting edge 2 formed thereon, Fabrication of garment components with sprocket elements. First of all, As the first sewing step, For example, as shown in Figure 5, The sprocket member 10 is sewn to the sprocket mounting edge portion 2 of the cloth 5 using a zigzag stitch machine. at this time, By using a zigzag stitch machine with coordinate data of the needle drop position, Sew the sprocket mounting edge 2 of the sprocket member 10 and the fabric 5, The fixing sewing part 6 shown in FIG. 2 and the like is formed, The sprocket member 10 is sewn on one side by the fixing sewing portion 6 and fixed to the sprocket mounting edge portion 2 of the cloth 5. Secondly, As the second sewing step, To the sprocket mounting edge portion 2 of the cloth 5 to which the sprocket member 10 is fixed by the fixing sewing portion 6, Sewing of the auxiliary sewing section 8 using a lock-type stitching sewing machine using one needle is performed. With this, It can be positioned at a specific position of the sprocket mounting edge portion 2 where the fixing sewing portion 6 is formed, The auxiliary sewing portion 8 composed of the linear lock-type stitches is formed stably. the result, The upper thread 7a and the lower thread 7b of the fixing sewing portion 6 can be pressed toward the sprocket mounting edge portion 2 by the auxiliary sewing portion 8, Therefore, the sprocket member 10 can be more firmly fixed to the sprocket mounting edge portion 2. With this, As shown in Figures 2 to 4, The left and right clothes components of the sprocket member 10 are fixed to the sprocket attachment edge portion 2 by the fixing sewing portion 6 and the auxiliary sewing portion 8 to fabricate the left and right clothing components. also, In this embodiment 1, In addition to the left and right pair of clothing components described above, Non-illustrated clothing components and the like, which are prepared to constitute left and right sleeves or rear body pieces in the clothing, are prepared. Since then, The garment components of each part are combined by sewing each other, etc. And assembled into clothes. and then, The sprocket row 3 formed by fixing the sprocket member 10 to the sprocket mounting edge portion 2 of the cloth 5, The slider 40 is slidably mounted. With this, As shown in FIG. 1, the zippered garment 1 is stably manufactured. A part of the cloth 5 of the clothes 1 with the zipper 1 of the present embodiment 1 manufactured in this way not only constitutes the clothes 1, It also functions as a zip chain in previous zips. therefore, In the clothing 1 with a zipper in this embodiment 1, It is possible to have the function of a zipper in a form in which a zipper chain cloth which is a necessary component in the previous zipper (in other words, a zipper chain cloth without a zipper chain) exists. With this, The manufacturing cost (especially the material cost) of the garment 1 with a zipper can be reduced. also, Lightweight clothes 1 with zippers, And make clothes softer. especially, In the case of the clothing 1 of the first embodiment, The softness of the fabric 5 in the front and back directions of the placket portion of the clothes 1 can be improved. also, In the case of this embodiment 1, After the cloth 5 is provided with a required function such as water resistance or water repellency, for example, The sprocket member 10 is directly fixed to the cloth 5. therefore, It is also possible to easily manufacture a high-quality garment 1 with a zipper having water resistance, water repellency, and the like. and then, In the clothing 1 with a zipper in this embodiment 1, The protection portion that protects the sprocket mounting edge portion 2 of the garment 1 from contact with the flange portion 45 of the slider 40 is the sewing thread 7 (the upper thread 7a and the lower thread 7b) by the fixing sewing portion 6 as described above. , And the sewing thread 7 (the auxiliary upper thread and the auxiliary lower thread) of the auxiliary sewing portion 8 are formed. With this, Even if the sliding operation of the slider 40 is repeatedly performed, It is also possible to suppress the abrasion generated on the sprocket mounting edge 2 of the clothing due to the sliding of the sliding member 40, Not easy to damage the cloth 5. the result, The durability of the clothing 1 (especially the durability of the sprocket mounting edge 2 of the cloth 5) can be improved. Furthermore, In the case of the first embodiment, In the manufacture of clothes 1 with zippers, After cutting the fabric part of the front piece into a specific shape, The sewing of the sprocket member 10 is performed. but, In the present invention, It can also be compared to the cloth 5 before cutting, The sprocket member 10 is fixed to a specific position by sewing, Since then, Cut the cloth 5 with sprocket members into a specific shape, A garment component with sprocket members is made. also, In the sprocket member 10 of the first embodiment, In order to securely fix the fastener element 11 to the fastener element mounting edge portion 2 of the cloth 5 in a specific posture, As described above, the side surface of each fastener element 11 is provided with an insertion recessed portion 12 e into which a part of the fastener element mounting edge portion 2 of the cloth 5 can be inserted. but, In the present invention, It is also possible to integrally form the plurality of fastener elements 15 on the side of the fixing member 15 without inserting the recess 12e, A sprocket member is produced. and then, In the above embodiment 1, as shown in picture 2, The fixing sewing portion 6 formed by the zigzag stitch machine is formed by repeating the unit threading area 17, The unit routing area 17 has: The first wiring section 17a and the third wiring section 17c, These have inclined portions where the upper line 7a and the lower line 7b run obliquely with respect to the width direction; And the second wiring section 17b, The top line 7a and the bottom line 7b run along the length direction. especially, In that case, The sewing part 6 for fixing is facing the side part with the cloth of the fastener element 11, The portion of the sewing portion 6 for fixing is formed on the inner side of the cloth 5 than the side surface portion of the fastener element 11 in a shape of an isosceles trapezoid in a plan view. but, In the present invention, The shape of the unit threading area 17 of the fixing sewing portion 6 is not limited to this, It is also possible to use a zigzag stitch sewing machine to form the sewing portion in other shapes. E.g, As shown in FIG. 6, the sewing part 6 a for fixing according to the modification of the first embodiment is shown. The unit threading area 19 of the fixing sewing portion 6a may also have: First routing section 19a, The top line 7a and the bottom line 7b are linearly aligned in the width direction from the position where the outer peripheral surface crosses the outer peripheral surface of the fixing member 15 to the first first piercing position 18a; The second wiring section 19b, The top line 7a and the bottom line 7b are linearly routed from the first piercing position 18a along the length direction to the next second piercing position 18b; And the third routing section 19c, The top line 7a and the bottom line 7b are linearly routed from the second piercing position 18b in the width direction to the next outer periphery crossing position. The unit sewing area 6a is formed by repeating the unit threading area 19 as shown in FIG. 6, The fixing sewing portion 6a may be made to pierce the fastener element mounting edge portion 2 of the cloth 5 and support the fixing member 15 of the fastener element 10 so as to enclose at least a part of the fixing member 15, Therefore, the sprocket member 10 can be firmly and stably fixed to the sprocket mounting edge portion 2 of the cloth 5. also, In that case, Since the fixing sewing portion 6a is formed in the length direction and the width direction, Therefore, the appearance or design of the clothes 1 with a zipper can be improved. [Embodiment 2] Fig. 7 is a plan view showing a main part of a garment with a zipper according to Embodiment 2 of the present invention. Fig. 8 is a perspective view showing a sprocket member of the second embodiment. The zippered clothing 1a of the second embodiment is formed differently from the zippered clothing 1 of the first embodiment in the shape of the fastener element 21 and the shape of the stitches of the fixing sewing portion 6b. but, With regard to the other parts, The zippered clothing 1a of the second embodiment is formed in substantially the same manner as the zippered clothing 1 of the first embodiment. therefore, In this embodiment 2, By using the same symbols for parts and components having substantially the same constitution as in the first embodiment, The description is omitted. also, In the following description of Example 3 and later, It is also represented by using the same symbols for parts and components having substantially the same constitution as the previously described embodiments, The description is omitted. The sprocket member 20 of the second embodiment is formed by fixing a plurality of synthetic resin fastener elements 21 to the fixing member 15 at fixed intervals. The fastener element 21 of this embodiment 2 has: Body portion 22a, It encloses and fixes the fixing member 15 to the fixing member 15; Neck 22b, It extends from the main body portion 22a; Engaging head 22c, It extends from the neck 22b; And the protruding piece portion 22d, It protrudes forward and backward from the neck 22b in a thin plate shape. At the end of the engaging head 22c, A groove portion 22f is formed in the length direction. In that case, The neck 22b of the fastener element 21, Engaging head 22c, 22d, The recessed portion 22f is formed substantially the same as the fastener element 11 in the first embodiment. therefore, In the fastener element 21 of this embodiment 2, An engaging portion 22g that is engaged with the fastener element 11 on the meshing object side is also formed by the neck portion 22b and the engaging head portion 22c. The main body portion 22a of the second embodiment has: Upper surface and lower surface, It is arranged orthogonally to the thickness direction; Front surface and rear surface, They are arranged towards the length; And side parts (fabric facing side parts), It is arranged to face the cloth 5. The upper surface portion and the lower surface portion of the main body portion 22a are arranged parallel to each other, The main body portion 22a has a fixed thickness dimension. also, On the side surface portion of the main body portion 22a (the side surface facing the cloth), An insertion recess (not shown) is provided along the length direction of the sprocket member 20 to insert a part of the sprocket mounting edge portion 2 of the cloth 5. The main body portion 22a of the second embodiment is provided on the fastener element 21 in plan view and has: Body end portion 23a, It is connected to the neck 22b and the length dimension (the dimension in the longitudinal direction of the sprocket member 20) between the front surface portion and the rear surface portion of the main body portion 22a is a fixed size; And decreasing section 23b, It extends in the width direction from the main body end portion 23a toward the sprocket mounting edge portion 2 side. The decreasing portion 23b is formed by decreasing the length dimension between the front surface portion and the rear surface portion of the main body portion 22a as it approaches the fastener element mounting edge portion 2 (or away from the neck portion 22b) at a fixed ratio. Since the main body portion 22a of the second embodiment has the main body end portion 23a and the decreasing portion 23b as described above, Therefore, the front surface portion and the rear surface portion disposed on the main body portion 22a have: Parallel It is parallel to the width direction of the sprocket member 20; And flat slopes, It is arrange | positioned diagonally with respect to this width direction. In this embodiment 2, By providing a decreasing portion 23b in the main body portion 22a, The sewing thread 7 (the upper thread 7a and the lower thread 7b) of the fixing sewing portion 6b of the fixed sprocket member 20 can be made less likely to overlap with the fastener element 21 compared to the case of the fastener element 11 of the first embodiment described above. In that case, The decreasing portion 23b is provided in a range of 10% to 90% of the overall width dimension of the main body portion 22a, The range is preferably 40% or more and 85% or less. By taking 10% or more of the overall width of the main body portion 22a, It is preferable that 40% or more of the decreasing portions 23b of the fastener element 21 be provided, It is possible to more effectively prevent the sewing thread 7 of the fixing sewing portion 6 b from overlapping the fastener element 21. also, By taking 90% or less of the overall width of the main body portion 22a, It is preferable that a decreasing portion 23b is provided at 85% or less, The main body end portion 23a of the main body portion 22a can be appropriately formed, In addition, the fixing member 15 can be appropriately enclosed by the main body portion 22a. With this, The strength of the fastener element 21 or the fixing strength of the fastener element 21 with respect to the fixing member 15 can be stably ensured. and then, The fixing member 15 can be hidden by the zipper element 21 so that it is not easy to see, Therefore, the appearance quality of the sprocket member 20 can be improved, The appearance quality of the garment 1a with a zipper is further improved. The sprocket member 20 of the second embodiment is relative to the sprocket mounting edge portion 2 of the cloth 5, It is arranged at a position adjacent to the outer side in the width direction as in the case of the first embodiment. And it is fixed by the fixing sewing part 6b. Although the shape of the unit threading area 27 formed by each fastener element 21 of the fixing sewing portion 6b of the second embodiment is different from that in the first embodiment, However, as in the case of the first embodiment, the upper and lower lines are provided. In addition, it is formed by zigzag-stitching a zigzag pattern with respect to the longitudinal direction. In the case of this embodiment 2, Each unit threading area 27 of the fixing sewing portion 6b has a first piercing position 28a and a second piercing position 28b through which the fixing sewing portion 6b pierces the sprocket mounting edge portion 2, The first piercing position 28a and the second piercing position 28b are arranged at a fixed interval in the width direction of the sprocket member 20 and the position of the side surface portion of the fastener element 21. The fixing sewing portion 6b of the second embodiment is provided in each unit routing area 27 and has: The linear first wiring section 27a, The position where the top line and the bottom line cross the outer peripheral surface of the fixing member 15 and the outer peripheral crossing position is inclined with respect to the width direction until the first first piercing position 28a; The linear second wiring section 27b, It is arranged along the length direction from the first puncture position 28a to the next second puncture position 28b; And a straight third wiring section 27c, This is arranged obliquely from the second puncturing position 28b with respect to the width direction to the next outer-peripheral crossing position. As described above, the first threaded portion 27a and the third threaded portion 27c of the fixing sewing portion 6b are linearly formed in a direction inclined with respect to the width direction, Sewing with a zigzag stitch machine can be performed more smoothly. also, Although the first threaded portion 27a and the third threaded portion 27c of the fixing sewing portion 6b are formed linearly in a direction inclined with respect to the width direction, However, since the main body portion 22a of the fastener element 21 of the second embodiment is provided with the decreasing portion 23b as described above, It is possible to stably prevent the sewing thread 7 (the upper thread 7a and the lower thread 7b) of the fixing sewing portion 6b from overlapping or hooking on the fastener element 21. With this, It is possible to prevent the sewing thread 7 of the fixing sewing portion 6b from being loosened, The state where the sprocket member 20 is fixed to the cloth 5 is stably maintained. then, Since the main body portion 22a has the decreasing portion 23b as described above, The contact area (contact area) of the fastener element 21 of the fastener element mounting edge portion 2 of the cloth 5 can be made smaller than that of the fastener element 11 of the first embodiment. With this, It can reduce the impact of the contact between the zipper sprocket 21 and the sprocket mounting edge 2 of the cloth 5 on the flexibility of the sprocket mounting edge 2 Furthermore, the flexibility of the sprocket mounting edge portion 2 is more appropriately ensured. In this way, the sprocket mounting edge portion 2 can be formed more softly, Thereby, the quality of the clothes 1a with a zipper can be improved. also, When sliding the slider 40 forward, The left and right zipper sprocket 21 can be easily engaged in the guide path of the sprocket of the slider 40. With this, Can reduce the sliding resistance of the slider 40, The sliding performance and operability of the slider 40 are improved. also, In this embodiment 2, Attach the edge portions 2 to the left and right sprocket elements of the cloth 5, A flange facing region (slider facing region) facing the flange portion 45 of the slider 40 is disposed along the longitudinal direction in the same manner as in the case of the first embodiment. The fixing sewing portion 6b of the second embodiment is a protection portion that protects the sprocket mounting edge portion 2 from contact with the slider 40, The flanges are arranged across the sprocket mounting edge portion 2 so as to face each other. With this, Even if the sliding operation of the slider 40 is repeatedly performed, The sprocket mounting edge portion 2 can also be prevented from being worn by the flange portion 45 of the slider 40, Therefore, the durability of the sprocket mounting edge portion 2 can be improved. and then, The zippered clothing 1a of the second embodiment having the zipper fastener element 21 and the fixing sewing portion 6b as described above is formed without interposing a zipper chain cloth. Therefore, it is possible to obtain the same effect as that of the clothing 1 with a zipper of the above-mentioned first embodiment. [Embodiment 3] Figs. 9 and 10 are a top view and a bottom view showing a main part of a garment with a zipper according to the third embodiment. also, FIG. 11 is a sectional view of a sprocket member of Embodiment 3. FIG. The zippered clothing 1b of the third embodiment is formed differently from the zipper fasteners 11 of the zippered clothing 1 of the first embodiment described above. Furthermore, In the garment 1b with a zipper in this embodiment 3, The parts other than the fastener element 31 are formed in substantially the same manner as the garment 1 with a zipper of the first embodiment. Each fastener element 31 in the sprocket member 30 of the third embodiment has an upper half of the sprocket (first half of the first sprocket) 32 and a lower half of the sprocket, which are distinguished based on the height position in the approximate center of the thickness direction.部 (the second sprocket half) 34. also, The sprocket upper half 32 and the sprocket lower half 34 have different shapes from each other. which is, The fastener element 31 of the third embodiment is different from the fastener element 11 of the first embodiment and the fastener element 21 of the second embodiment. It has an asymmetric shape in the vertical direction. In that case, The upper surface of the sprocket upper half 32 and the lower surface of the sprocket lower half 34 are orthogonal to the thickness direction and are arranged parallel to each other. The upper half 32 of the sprocket in this embodiment 3 has: The upper body portion (first body portion) 32a, It clamps the fixing member 15 with the lower half 34 of the sprocket; And the upper side head (first head) 32b with a tapered shape, It extends from the upper body portion 32a in the width direction. The upper body portion 32a has: Upper body end portion 33a, It is connected to the upper head 32b and has a fixed length dimension; And the upper decreasing portion 33b, It extends in the width direction from the upper main body end portion 33a toward the sprocket mounting edge portion 2 side; The upper decreasing portion 33 b has a shape that decreases in length as it approaches the sprocket attachment edge portion 2. also, The upper head 32b is formed in a substantially triangular shape in the plan view of the fastener element 31, The length of the upper head 32b is gradually reduced toward the distal end portion (the distal end portion). The lower half 34 of the sprocket of the third embodiment has: Lower main body portion (second main body portion) 34a; Lower neck (second neck) 34b, It extends from the lower body portion 34a in the width direction and has a contracted shape; And the lower meshing head (second meshing head) 34c, It extends from the lower neck portion 34b in the width direction. In the lower half 34 of the sprocket of this embodiment 3, The lower neck portion 34b and the lower engagement head portion 34c form an engagement portion 34g that engages with the lower half portion 34 of the fastener element 31 of the fastener element 31 on the engagement target side. The lower body portion 34a has: Lower body tip 35a, It is connected to the lower neck portion 34b and its length dimension is increased toward the sprocket mounting edge portion 2 side; And the lower decreasing portion 35b, It extends in the width direction from the lower main body end portion 35a toward the fastener element mounting edge portion 2 side, and the length dimension decreases as it approaches the fastener element mounting edge portion 2. In the fastener element 31 of the third embodiment, The upper main body end portion 33a having a fixed length dimension is formed on the upper head portion 32b, Further, the lower body end portion 35a is formed on the lower body portion 34a so that the length dimension is increased toward the sprocket mounting edge portion 2 side. The fixing strength of the fastener element 31 to the fixing member 15 can be appropriately ensured. and then, In the fastener element 31 of the third embodiment, The upper-side decreasing portion 33b and the lower-side decreasing portion 35b are formed on the upper-side head portion 32b and the lower-side main body portion 34a by decreasing the length dimension toward the sprocket mounting edge portion 2 side. On the other hand, the sewing thread 7 (the upper thread 7a and the lower thread 7b) of the fixing sewing portion 6 of the fixed sprocket member 30 is prevented from overlapping or hooking on the fastener element 31. especially, In the case of the fastener element 31 of the third embodiment, The front surface portion and the rear surface portion of the upper decreasing portion 33b and the lower decreasing portion 35b of the fastener element 31 are formed on the fastener element 31 in a curved shape as viewed from above. Thereby, the appearance quality of the fastener element 31 is improved. The zippered clothing 1b of the third embodiment having the zipper fastener elements 31 described above is formed without interposing a zipper chain cloth, Therefore, it is possible to obtain the same effect as that of the clothing 1 with a zipper of the above-mentioned first embodiment. also, The fixing sewing portion 6 of the third embodiment is also formed as a protection portion in the same manner as in the first embodiment. Therefore, the sprocket mounting edge portion 2 can be protected from contact with the slider. [Embodiment 4] FIG. 12 is a cross-sectional view showing a main part of a garment with a zipper according to Embodiment 4. FIG. In the clothing 1c with a zipper of this embodiment 4, The structure in which the sprocket member 10a is fixed to the sprocket attachment edge portion 2 of the cloth 5 is different from the structure of the above-mentioned first to third embodiments (the structure of a so-called normal type slide fastener). which is, In the clothing 1c with a zipper of this embodiment 4, A zipper is formed in a so-called reverse mounting type in which the sprocket members 10a are fixed to the back surface (lower surface) of the sprocket mounting edge portion 2 so that the sprocket rows are not easily visible from the outer surface side of the clothes. To explain specifically, In the clothing 1c with a zipper in this embodiment 4, The sprocket member 10a is directly fixed to the lower surfaces of the left and right sprocket attachment edge portions 2 by the fixing sewing portion 6c. also, The slider 50 is formed as a slider for a reverse-type slide fastener as follows, The sprocket row formed by the plurality of zipper sprocket elements 11a is slidably mounted on the sprocket member 10a. The sprocket mounting edge portion 2 of the cloth 5 in the fourth embodiment is the same as the sprocket mounting edge portion 2 of the first embodiment. It is formed by folding the side edge portion of the cloth 5 to a U-shape toward the lower surface side. also, On the upper surface of the sprocket mounting edge portion 2 of this embodiment 4, A slider-opposing area facing the inner surface (sprocket guide surface) of the upper wing plate 53 of the slider 50 described below is continuously disposed along the length direction. The sprocket member 10a of the fourth embodiment has: A plurality of independent synthetic resin fastener elements 11a; And one fixed member 15, It connects these several fastener element 11a with a fixed space | interval. In this sprocket member 10a, Although each of the fastener element 11a is not provided with the insertion recessed portion 12e arranged in the fastener element 11 of the first embodiment, But with regard to other constitutions, The sprocket member 10a of the fourth embodiment is formed in the same manner as the sprocket member 10 of the first embodiment. The sprocket member 10a of this embodiment 4 is relative to the sprocket mounting edge portion 2 of the cloth 5, In a state of overlapping with the lower surface side of the sprocket mounting edge portion 2, It is fixed by the fixing sewing part 6c formed by a lock stitch. In that case, The fixed sewing portion 6c of the fixed sprocket member 10a is formed into a zigzag shape by sewing with a zigzag stitch machine. also, The fixing sewing portion 6c is held by wrapping the fixing member 15 of the sprocket member 10a with the sewing thread 7 of the fixing sewing portion 6c. And pierce the sprocket mounting edge portion 2 at positions on the left and right sides of the fixing member 15, The sprocket member 10 a is fixed to the sprocket mounting edge portion 2 of the cloth 5. also, At the piercing position where the fixing sewing portion 6c pierces the sprocket mounting edge portion 2, The upper thread (needle thread) and the lower thread (bobbin thread) of the sewing thread 7 cross each other. In this fourth embodiment, The sewing line 7 of the fixing sewing portion 6c is formed on the upper surface of the sprocket mounting edge portion 2 to form a zigzag stitch. One side is arranged along the length direction. In that case, The fixing sewing portion 6c formed in a zigzag shape is exposed on the upper surface of the sprocket mounting edge portion 2, And it is formed in such a manner as to cover a part of the above-mentioned sliding member opposite region arranged on the upper surface. With this serrated fixing sewing portion 6c, A protection portion is formed to protect the upper surface of the sprocket mounting edge portion 2 from contact with a part of the slider 50 (in the case of the fourth embodiment, a part of the upper flap 53 described below). The slider 50 of the fourth embodiment has a slider body 51, as shown in FIG. 12 as a part thereof. And pull tabs not shown. The slider body 51 has: Upper wing plate 53; Lower wing 54 It is spaced from the upper wing plate 53 and arranged in parallel; Links not shown, It connects the upper wing plate 53 and the front end portion (the end portion on the inlet side) of the lower wing plate 54; Flange portion 55, It extends from the left and right side edges of the lower wing plate 54 toward the upper wing plate 53; And a pull-tab mounting section (not shown), It is arranged on the upper surface of the upper wing plate 53 and holds the pull tab. At the front end of the slider body 51, Left and right inlets are formed at a distance between the connecting pillars, An engaging opening is formed at the rear end of the slider body 51. also, Between the upper wing plate 53 and the lower wing plate 54, A substantially Y-shaped sprocket guide path is formed to communicate the left and right introduction ports and the meshing ports. As described above, the clothing 1c with a zipper of this embodiment 4 is formed without using a zipper chain cloth. Therefore, as in the case of the above-mentioned first to third embodiments, Reduction in manufacturing costs, Lightweight clothes, And the softness of clothes. also, It is also possible to easily manufacture a high-quality zip-attached garment 1c having water resistance, water repellency, and the like. and then, In this fourth embodiment, On the upper surface of the sprocket mounting edge 2 of the garment, The zigzag-shaped fixing sewing portion 6c is formed with a protection portion which protects the protection portion from contact with the upper plate 53 of the slider 50, Therefore, damage to the sprocket mounting edge portion 2 caused by the sliding of the slider 50 can be prevented from occurring easily. [Embodiment 5] FIG. 13 is a cross-sectional view showing a main part of a garment with a zipper according to Embodiment 5. FIG. In the clothes 1d with a zipper of this embodiment 5, The structure for fixing the sprocket member 10b to the sprocket mounting edge portion 4 of the cloth 5 is different from the structure of the ordinary type as in the above-mentioned Embodiments 1 to 3 or the reverse mounting type zipper as in Embodiment 4. In the clothes 1d with a zipper of this embodiment 5, A zipper is formed in a so-called invisible type in which a plurality of fastener elements 11 a and the fixing sewing portion 6 d for fixing the fastener element 10 b are covered and hidden by the cloth 5 of clothes. To explain specifically, In the clothing 1d with a zipper of this embodiment 5, The side edge of the cloth 5 is folded back into a U shape, Only by the fold-back portion (fold-back piece portion) formed by the fold-back, A sprocket mounting edge portion 4 for mounting the sprocket member 10b is formed. The sprocket member 10b is directly fixed to the lower surface of the folded-back sprocket attachment edge portion 4 by the fixing sewing portion 6d. In this fifth embodiment, The meshing head 12c of each fastener element 11a protrudes to the outer side in the width direction than the position of the U-shaped bent portion of the cloth 5 (the side of the meshing member 10b). also, The slider 60 is formed as a hidden type slide fastener for slide fasteners provided with left and right flange portions 65 having an inverted L-shape as described below. The slider 60 is a sprocket row formed by a plurality of fastener elements 11 a slidably mounted on the sprocket member 10 b. The sprocket mounting edge 4 formed by folding back the cloth 5 in this embodiment 5 has: lower surface, It is used for fixing the sprocket member 10b; And the top surface, It is arranged on the opposite side of the lower surface and is formed by the inner peripheral surface of the folded back cloth 5. On the upper surface of the sprocket mounting edge portion 4, A flange facing area (slider facing area) facing the inner surface of the lateral wall portion 65b of the flange portion 65 described below in the slider 60 is continuously arranged in the longitudinal direction. The sprocket member 10b of the fifth embodiment has: A plurality of independent synthetic resin fastener elements 11a; And one fixed member 15, It fixes these plural fastener element 11a at a fixed interval. Although the fastener element 11a of the fifth embodiment is not provided with the insertion recess 12e as in the first embodiment, However, other than that, it is formed in the same shape as the fastener element 11 of the said Example 1. which is, The fastener element 11a of the fifth embodiment is formed in the same manner as the fastener element 11a of the fourth embodiment described above. The fixing member 15 of the fifth embodiment is opposite to the fastener element 11a. Placed at a position displaced to the upper side in the thickness direction (close to the position where the sprocket is attached to the edge), It is not placed at the center of the thickness direction. In that case, The entire outer periphery of the fixing member 15 is covered with the fastener element 11a. The sprocket member 10b of the fifth embodiment is a sprocket mounting edge portion 4 which is a folded back portion of the cloth 5, In a state of overlapping with the lower surface side of the sprocket mounting edge portion 4, It is fixed by the fixing sewing part 6d formed in a lock stitch. In that case, The fixing sewing portion 6d of the fixed sprocket member 10b is formed into a zigzag shape by sewing with a zigzag stitch machine. also, The fixing sewing portion 6d is held by wrapping the fixing member 15 of the sprocket member 10b with the sewing thread 7 of the fixing sewing portion 6d. And pierce the sprocket mounting edge portion 4 at positions on the left and right sides of the fixing member 15, The sprocket member 10 b is fixed to the sprocket mounting edge portion 4 of the cloth 5. also, At the piercing position where the fixing sewing portion 6d pierces the sprocket mounting edge portion 4, The upper thread (needle thread) and the lower thread (bobbin thread) of the sewing thread 7 cross each other. In this fifth embodiment, The sewing line 7 of the fixing sewing portion 6d is attached to the upper surface of the sprocket mounting edge portion 4, A jagged stitch on one side, One side is arranged along the length direction. In that case, The fixing sewing portion 6d formed in a zigzag manner on the upper surface of the sprocket mounting edge portion 4 is formed so as to cover the above-mentioned flange facing area (slider facing area) arranged on the upper surface. With this serrated fixing sewing part 6d, A protection portion is formed to protect the upper surface of the sprocket mounting edge portion 4 from contact with the flange portion 65 of the slider 60. As shown in FIG. 13, a slider 60 of the fifth embodiment includes a slider body 61, And pull tabs not shown. The slider body 61 has: Lower wing plate 64; A pair of left and right flange portions 65 of the inverted L shape, They are erected on the left and right side edges of the lower wing plate 64; The central pillar, not shown, It is erected at the central portion in the width direction of the front end portion (the inlet-port-side end portion) of the lower wing plate 64; Protrusion 63, It protrudes in a direction parallel to the lower wing plate 64 from the upper end of the central pillar portion; And a pull-tab mounting section (not shown), It is arranged on the upper surface of the central pillar and holds the pull tab. The flange portion 65 of the slider body 61 has: Vertical wall portion 65a, It rises from the edges of the left and right sides of the lower wing plate 64; And the transverse wall portion 65b, It extends from the upper end portion of the vertical wall portion 65a toward the inner side in the width direction. also, Between the protruding portion 63 in the slider body 61 and the lateral wall portion 65b of the flange portion 65, An insertion gap is formed in which the cloth 5 is inserted. At the front end of the slider body 61, Left and right inlets are formed at the center of the column, An engaging opening is formed at the rear end of the slider body 61. also, A substantially Y-shaped sprocket guide path connecting the left and right introduction ports and the meshing ports is formed by the lower wings 64, Left and right flanges 65, And the protruding part 63 is formed to surround. As described above, the clothes 1d with a zipper of this embodiment 5 is formed without using a zipper chain cloth. Therefore, as in the case of the first to fourth embodiments, Reduction in manufacturing costs, Lightweight clothes, And the softness of clothes. also, It is also possible to easily manufacture high-quality clothes 1d with a zipper having water resistance and water repellency. and then, In this fifth embodiment, On the upper surface of the sprocket mounting edge portion 4, The zigzag-shaped fixing sewing portion 6 d is formed with a protection portion which protects it from contact with the flange portion 65 (transverse wall portion 65 b) of the slider 60, Therefore, it is possible to prevent damage to the sprocket mounting edge portion 4 caused by the sliding of the slider 60. [Embodiment 6] Fig. 14 is a plan view showing a main part of a garment with a zipper according to Embodiment 6 of the present invention. 15 is a cross-sectional view schematically illustrating the relationship between a sprocket member and a slider. Fig. 16 is a perspective view showing a sprocket member according to the sixth embodiment. The clothing 1e with a zipper of the sixth embodiment is the shape of each zipper element 81 arranged on the sprocket member 80, The shape of the slider 70, The shape of the protection part is different from that of the clothes 1 with a zipper in the first embodiment, But with regard to the other parts, The zippered clothing 1e of the sixth embodiment is formed in substantially the same manner as the zippered clothing 1 of the first embodiment. The sprocket member 80 of the sixth embodiment is formed by fixing a plurality of synthetic resin-made fastener elements 81 at fixed intervals to the fixing member 15 by injection molding. The fastener element 81 of the sixth embodiment has a shape that is symmetrical in the vertical direction with reference to the center position in the thickness direction. also, The fastener element 81 has: Main body 82a, It encloses and fixes the fixing member 15 to the fixing member 15; Neck 82b, It extends from the main body portion 82a; Engaging head 82c, It extends from the neck 82b; And tab part 82d, It protrudes forward and backward from the neck 82b into a thin plate shape. In the central portion in the thickness direction of the main body portion 82a, The fixing member 15 penetrates in the longitudinal direction. On the side portion of the main body portion 82a facing the cloth 5, An insertion recess 82e is formed in the longitudinal direction into which a part of the sprocket mounting edge portion 2 is inserted. At the end of the engaging head 82c, A groove portion 82f is formed in the length direction. also, The fastener element 81 of the sixth embodiment has a first element portion 83a and a second element portion 83b having different thickness dimensions (thickness dimensions). In that case, The upper surface portion and the lower surface portion of the first sprocket portion 83a, The upper surface portion and the lower surface portion of the second sprocket portion 83b are each formed by a plane orthogonal to the thickness direction. The first sprocket portion 83a of the fastener element 81 includes at least a part of the neck portion 82b and the engaging head portion 82c, And the thickness dimension is formed larger than the 2nd sprocket part 83b. The thickness dimension of the first sprocket portion 83a is set in accordance with the upward and downward upward interval between the inner surface of the upper wing plate 73 and the inner surface of the lower wing plate 74 below of the slider 70. The second sprocket portion 83b of the fastener element 81 extends from the first sprocket portion 83a in a direction close to the cloth 5 (in other words, a direction away from the meshing head 82c) in the width direction through the step 83c. Further, at least a part including the main body portion 82a is formed. The thickness dimension of the second sprocket portion 83b is set to be smaller than the thickness dimension of the first sprocket portion 83a via the step 83c. And it is set according to the magnitude | size of the insertion gap formed between the flange part 75 of the upper side of the slider 70 mentioned below, and the flange part 75 of the lower side. In that case, The step difference 83c disposed at the boundary between the first sprocket portion 83a and the second sprocket portion 83b is formed by the difference between the thickness dimension of the first sprocket portion 83a and the thickness dimension of the second sprocket portion 83b. It is symmetrically formed on both the upper surface side and the lower surface side of the fastener element 81. also, In each fastener element 81 of this embodiment 6, The step surface of the step 83c and the upper surface of the second sprocket portion 83b, And by the step surface of the step 83c and the lower surface of the second sprocket portion 83b, Corresponding to the positions of the upper flange portion 75 and the lower flange portion 75 respectively, the upper flange portion 75 and the lower flange portion 75 of the slider 70 can be incorporated and inserted respectively. Pass the recessed portion 83d for the upper and lower flanges. In that case, As shown in Figure 15, The upper flange recess 83d is formed on the upper side than the upper end of the fixing member 15 in the up-down direction. Further, it is formed on the upper side than the position of the fixing sewing portion 6 holding the fixing member 15. also, The lower flange recess 83d is formed on the lower side than the lower end of the fixing member 15 in the vertical direction. Further, it is formed on the lower side than the position of the fixing sewing portion 6 holding the fixing member 15. The slider 70 of the sixth embodiment has a slider body 71, as shown in FIG. And a pull-tab (not shown) held on the slider body 71. The slider body 71 of this embodiment 1 has: Upper wing plate 73; Lower wing 74, It is spaced from the upper wing plate 73 and arranged in parallel; Links not shown, It is connected between the upper end plate 73 and the front end portion (inlet port side end portion) of the lower wing plate 74; The upper and lower flange portions 75, They are arranged on the left and right side edges of the upper wing plate 73 and the lower wing plate 74; And a pull-tab mounting section (not shown), It is arranged on the upper surface of the upper wing plate 73 and holds the pull tab. At the front end of the slider body 71 in this embodiment 6, Left and right inlets are formed at a distance between the connecting pillars, An engaging opening is formed at the rear end of the slider body 71. also, Between the upper wing plate 73 and the lower wing plate 74, A substantially Y-shaped sprocket guide path is formed to communicate the left and right introduction ports and the meshing ports. and then, Between the upper and lower flange portions 75 in the slider body 71, An insertion gap is formed in which the second fastener element portion 83 b of the fastener element 81 is inserted. especially, The slider body 71 of the sixth embodiment is compared with, for example, the slider body 41 of the first embodiment. Reducing the interval between the left and right flanges 75, In addition, an interval between the upper flange portion 75 and the lower flange portion 75 is increased to be formed. also, The upper and lower flange portions 75 in the slider 70 of the sixth embodiment are in a relationship with the fastener element 81, It has a shape and size corresponding to the above-mentioned flange recessed portion 83d provided in each fastener element 81. In other words, When looking at the cross section orthogonal to the longitudinal direction of the flange portion 75 of the fastener element 81 and the slider 70, The flange portion 75 of the slider 70 has the same cross-sectional shape or corresponding cross-sectional shape as the flange recess portion 83 d of the fastener element 81. also, The flange portion 75 of the slider 70 has a size that can be accommodated in the flange recess portion 83d of the fastener element 81 and can be fastened to a step difference 83c between the first and second element portions 83a and 83b. In the zippered clothing 1e of the sixth embodiment described above, Each flange recessed part 83d arrange | positioned on the upper surface side and the lower surface side of each fastener element 81 is formed so that the cross section orthogonal to a longitudinal direction may have a fixed shape. The flange recesses 83 d formed in the plurality of fastener elements 81 in this manner are provided as protection portions for protecting the fastener element mounting edge portion 2 of the garment from contact with the upper and lower flange portions 75 of the slider 70. To explain specifically, In the sprocket member 80 having a plurality of fastener elements 81 fixed at equal intervals, With the flange recess 83d formed in each fastener element 81, A path through which the upper and lower flange portions 75 of the slider 70 pass is formed along the length direction of the sprocket member 80. With this, When the slider 70 slides, The upper and lower flange portions 75 are moved within the flange recesses 83d of the fastener element 81 arranged separately from the fastener element attaching edge portion 2 of the clothes, Therefore, the upper and lower flange portions 75 can be prevented from directly slidingly contacting the fastener element mounting edge portion 2 of the garment. therefore, In the clothing 1e with a zipper in this embodiment 6, Even if the sliding operation of the slider 70 is repeatedly performed, It will not cause abrasion on the sprocket mounting edge 2 of the clothing due to the sliding of the sliding member 70, In addition, abrasion can be prevented from occurring in the fixing sewing portion 6 and the auxiliary sewing portion 8 due to the sliding of the slider 70. therefore, The durability of the clothes (especially the durability of the sprocket mounting edge portion 2 of the cloth 5) can be greatly improved. also, The clothing 1e with a zipper of this embodiment 6 is formed without using a zipper chain cloth as in the case of the above-mentioned embodiments 1 to 5. Therefore, reduction in manufacturing costs, Lightweight clothes, And the softness of clothes. and then, It is also possible to easily manufacture a high-quality zippered garment 1e having water resistance, water repellency, and the like. Furthermore, The clothing 1 with a zipper in the above Examples 1 to 3 and 6 1a, 1b, In 1e, Sprocket member 10, 20, 30, 80 is relative to the sprocket mounting edge 2 of the cloth 5, Zigzag-shaped fixed sewing section 6 formed by a zigzag stitch machine. 6b, And the auxiliary sewing section 8 formed by a lock-type needle-step sewing machine, It is firmly fixed at a position adjacent to the outer side in the width direction. but, In the present invention, For example, FIG. 17 shows another variation 1f of Example 1 in which clothes 1f with zippers are attached, The auxiliary sewing portion 8 formed by a lock-type needle-step sewing machine may not be formed. Instead, the sprocket member 10 is fixed to the sprocket mounting edge portion 2 of the cloth 5 only by the serrated fixing sewing portion 6. also, In that case, It is also possible to form at least one of the upper thread (needle thread) and the lower thread (bobbin thread) of the zigzag-shaped fixing sewing part 6, Use a welded wire (also known as a fused wire) with a core-sheath structure, It is not the usual sewing machine thread like the first embodiment. In a weld line having the core-sheath structure, The core of the weld line is a fiber material that does not melt even when heated to a certain temperature or more. Or it is formed by the heat shrinkable fiber material which shrink | contracts by heating. The sheath portion of the weld line is formed of a fibrous material having a hot-melt property that is melted by heating to a specific temperature or higher. When a weld line having such a core-sheath structure is used for at least one of the upper and lower threads of the fixing sewing portion 6, By performing the heat treatment after the formation of the fixing sewing portion 6, Even if the auxiliary sewing portion 8 is not formed as in the case of the first embodiment and the like described above, The fixing of the sprocket member 10 by the fixing sewing part 6 can also be performed strongly and firmly. also, It is also possible to effectively prevent the upper and lower threads of the fixing sewing portion 6 from being loosened. and then, In the present invention, For example, FIG. 18 and FIG. 19 show another variation of the first embodiment, such as 1 g of clothes with a zipper. The auxiliary sewing portion 8 formed by the lock-type needle-step sewing machine may not be formed. Instead, a transparent film member (belt member) 9 for attaching the fixing sewing portion 6 to the fastener element mounting edge portion 2 of the cloth 5 is attached to the fixing sewing portion 6 formed in a zigzag shape. Furthermore, This film member 9 may also be referred to as a thread-fixing film member for fixing the sewing thread 7 of the fixing sewing portion 6. In that case, The film member 9 is configured to cover at least a part of the fixing sewing part 6 including the first puncturing position 18a and the second puncturing position 18b of the fixing sewing part 6, Attach to at least one of the front and back surfaces of the sprocket mounting edge portion 2. With this, At least one of the upper thread 7 a and the lower thread 7 b of the fixing sewing portion 6 can be firmly fixed to the fastener element mounting edge portion 2. therefore, That is, the above-mentioned auxiliary sewing portion 8 is not formed on the sewing portion 6 for easy fixing, It is also possible to firmly fix the sprocket member 10 using the fixing sewing portion 6. also, In the clothes 1g with a zipper shown in FIG. 18 and FIG. 19, On the upper surface of the sprocket mounting edge portion 2, The zigzag-shaped fixing sewing portion 6 is formed with a protection portion that holds it so as not to contact the flange portion 45 of the slider 40. then, The film member 9 is attached to the upper surface and the lower surface of the fastener element mounting edge portion 2 so as to cover the fixing sewing portion 6 serving as a protection portion. With this, The film member 9 can more stably protect the fastener element mounting edge portion 2 of the garment from the flange portion 45 of the slider 40 together with the fixing sewing portion 6 functioning as a protection portion. Furthermore, In the present invention, Instead of attaching the film member 9 as described above, And apply or apply an adhesive in a range where the film member 9 is attached, The upper thread 7a and the lower thread 7b of the fixing sewing part 6 may be adhered to the fastener element mounting edge part 2 firmly and firmly. also, In the present invention, For example, the piercing position of the fixed sewing portion piercing the fastener element mounting edge portion of the cloth may be further away from the cloth facing side portion of the fastener element toward the inner side of the cloth than in the case of Example 1. In that case, In the unit routing area of the sewing section for fixing, It is also possible to reduce the piercing position of the fixing sewing portion to pierce the sprocket mounting edge portion to one instead of two as shown in FIG. 2 and the like, and to form the fixing sewing portion into a zigzag shape. also, In the routing area of each unit, It is also possible to increase the number of piercing positions where the fixing sewing portion pierces the sprocket mounting edge portion to, for example, three or more. and then, In Examples 1 to 4 and 6 described above, The side edge portion of the cloth 5 is folded back into a U shape to form a sprocket mounting edge portion 2, This increases the strength of the sprocket mounting edge portion 2. also, When the cutting end edge (side end edge) of the fabric 5 is spread, It is also possible to hide this opening on the back side of the sprocket attachment edge part 2 so that it cannot be seen. but, In the present invention, It is also possible not to fold the side edge of the cloth 5 into a U shape, A sprocket attachment edge portion is formed in a state of extending straight in the width direction. also, When the side edge portion of the cloth 5 is extended straight in the width direction to form a sprocket mounting edge portion, By impregnating a reinforcing agent into the side edge portion of the cloth 5, Alternatively, a reinforcing film member made of synthetic resin is attached to a side edge portion of the cloth 5 so as to enclose the side edge portion to the inside, On the other hand, the strength of the sprocket mounting edge formed straight is stably increased. In that case, Reinforcing agent impregnated in cloth 5 is hardening type adhesive, As such a reinforcing agent, For example, a one-liquid hardening adhesive can be used, Two-liquid hardening adhesive, Instant adhesive, Hot melt adhesive, Latex adhesive Or a light-curing type adhesive that is hardened by ultraviolet rays or electron beams. also, The reinforcing film member attached to the cloth 5 is a film-like member that can increase the strength of the cloth 5 by being attached. The reinforcing film member is preferably a film member having low stretchability or a film member which does not stretch. By using the impregnation of the reinforcing agent or the attachment of the reinforcing membrane member in this way, the sprocket mounting edge portion is reinforced, Even if, for example, the upper thread and the lower thread of the fixing sewing portion pierce the sprocket mounting edge portion, It is also possible to prevent the sprocket mounting edge portion from being easily cut by the upper and lower threads. Therefore, the durability of the sprocket mounting edge can be improved. also, Since the sprocket member is firmly fixed to the sprocket mounting edge portion in a straight state, Therefore, the position and posture of each sprocket fixed to the sprocket mounting edge can be stabilized. and then, By impregnating a reinforcing agent or attaching a reinforcing film member to the sprocket mounting edge, It can make the side end edge of the sprocket mounting edge part less likely to be frayed.
1‧‧‧附有拉鏈之衣服(製品)1‧‧‧ Clothes (products) with zippers
1a‧‧‧附有拉鏈之衣服(製品)1a‧‧‧ Clothes (products) with zippers
1b‧‧‧附有拉鏈之衣服(製品)1b‧‧‧ Clothes (products) with zippers
1c‧‧‧附有拉鏈之衣服(製品)1c‧‧‧Clothes (products)
1d‧‧‧附有拉鏈之衣服(製品)1d‧‧‧ Clothes (products) with zipper
1e‧‧‧附有拉鏈之衣服(製品)1e‧‧‧ Clothes (Products) with Zipper
1f‧‧‧附有拉鏈之衣服(製品)1f‧‧‧ Clothes (products) with zippers
1g‧‧‧附有拉鏈之衣服(製品)1g‧‧‧ Clothes (products) with zipper
2‧‧‧鏈齒安裝緣部2‧‧‧ Sprocket Mounting Edge
2a‧‧‧凸緣相對區域(滑件相對區域)2a‧‧‧ flange opposite area (slider opposite area)
3‧‧‧鏈齒排3‧‧‧ Sprocket
4‧‧‧鏈齒安裝緣部4‧‧‧ Sprocket Mounting Edge
5‧‧‧布料(拉鏈被安裝構件)5‧‧‧ Cloth (zip attachment member)
6‧‧‧固定用縫製部6‧‧‧ Sewing section for fixing
6a‧‧‧固定用縫製部6a‧‧‧Fitting sewing section
6b‧‧‧固定用縫製部6b‧‧‧Fitting sewing section
6c‧‧‧固定用縫製部6c‧‧‧Fitting sewing section
6d‧‧‧固定用縫製部6d‧‧‧Fitting sewing section
7‧‧‧縫製線7‧‧‧ sewing thread
7a‧‧‧面線(針線)7a‧‧‧ Upper thread (needle thread)
7b‧‧‧底線(梭芯線)7b‧‧‧Bottom thread (bobbin thread)
8‧‧‧輔助縫製部8‧‧‧Auxiliary sewing department
9‧‧‧膜構件(帶構件)9‧‧‧ membrane member (with member)
10‧‧‧鏈齒構件10‧‧‧ Sprocket member
10a‧‧‧鏈齒構件10a‧‧‧Sprocket member
10b‧‧‧鏈齒構件10b‧‧‧Sprocket member
11‧‧‧拉鏈鏈齒11‧‧‧ Zipper Sprocket
11a‧‧‧拉鏈鏈齒11a‧‧‧Zipper sprocket
12a‧‧‧主體部12a‧‧‧Main body
12b‧‧‧頸部12b‧‧‧ neck
12c‧‧‧嚙合頭部12c‧‧‧ Engage the head
12d‧‧‧突片部12d‧‧‧ protruding section
12e‧‧‧插入凹部12e‧‧‧Insertion recess
12f‧‧‧凹槽部12f‧‧‧ groove
12g‧‧‧嚙合部12g‧‧‧ meshing part
15‧‧‧固定構件15‧‧‧Fixed components
17‧‧‧單位走線區域17‧‧‧Unit alignment area
17a‧‧‧第1走線部17a‧‧‧The first routing department
17b‧‧‧第2走線部17b‧‧‧The second routing department
17c‧‧‧第3走線部17c‧‧‧3rd routing department
18a‧‧‧第1刺穿位置18a‧‧‧The first puncture position
18b‧‧‧第2刺穿位置18b‧‧‧ 2nd puncture position
19‧‧‧單位走線區域19‧‧‧Unit alignment area
19a‧‧‧第1走線部19a‧‧‧The first routing department
19b‧‧‧第2走線部19b‧‧‧The second routing department
19c‧‧‧第3走線部19c‧‧‧Third routing department
20‧‧‧鏈齒構件20‧‧‧ Sprocket member
21‧‧‧拉鏈鏈齒21‧‧‧Zipper sprocket
22a‧‧‧主體部22a‧‧‧Main body
22b‧‧‧頸部22b‧‧‧ neck
22c‧‧‧嚙合頭部22c‧‧‧ Engage the head
22d‧‧‧突片部22d‧‧‧ protruding section
22f‧‧‧凹槽部22f‧‧‧Groove
22g‧‧‧嚙合部22g‧‧‧Mesh
23a‧‧‧主體末端部23a‧‧‧ body end
23b‧‧‧遞減部23b‧‧‧Decreasing Department
27‧‧‧單位走線區域27‧‧‧Unit alignment area
27a‧‧‧第1走線部27a‧‧‧The first routing department
27b‧‧‧第2走線部27b‧‧‧Second wiring section
27c‧‧‧第3走線部27c‧‧‧3rd routing department
28a‧‧‧第1刺穿位置28a‧‧‧The first puncture position
28b‧‧‧第2刺穿位置28b‧‧‧ 2nd puncture position
30‧‧‧鏈齒構件30‧‧‧ sprocket member
31‧‧‧拉鏈鏈齒31‧‧‧Zipper sprocket
32‧‧‧鏈齒上半部(第1鏈齒半部)32‧‧‧ Upper half of sprocket (first half of sprocket)
32a‧‧‧上側主體部(第1主體部)32a‧‧‧upper main body (first main body)
32b‧‧‧上側頭部(第1頭部)32b‧‧‧upper head (first head)
33a‧‧‧上側主體末端部33a‧‧‧upper body end
33b‧‧‧上側遞減部33b‧‧‧Upward Decreasing Department
34‧‧‧鏈齒下半部(第2鏈齒半部)34‧‧‧ Lower half of sprocket (second sprocket half)
34a‧‧‧下側主體部(第2主體部)34a‧‧‧Lower main body (second main body)
34b‧‧‧下側頸部(第2頸部)34b‧‧‧Lower neck (2nd neck)
34c‧‧‧下側嚙合頭部(第2嚙合頭部)34c‧‧‧Lower meshing head (second meshing head)
34g‧‧‧嚙合部34g‧‧‧ meshing part
35a‧‧‧下側主體末端部35a‧‧‧ lower body tip
35b‧‧‧下側遞減部35b‧‧‧Lower Decreasing Section
40‧‧‧滑件40‧‧‧ Slider
41‧‧‧滑件主體41‧‧‧Slider body
42‧‧‧拉片42‧‧‧Pull
43‧‧‧上翼板43‧‧‧ Upper Wing
44‧‧‧下翼板44‧‧‧ lower wing
45‧‧‧凸緣部45‧‧‧ flange
46‧‧‧拉片安裝部46‧‧‧Pull-tab mounting section
50‧‧‧滑件50‧‧‧ Slide
51‧‧‧滑件主體51‧‧‧Slider body
53‧‧‧上翼板53‧‧‧ Upper Wing
54‧‧‧下翼板54‧‧‧ lower wing
55‧‧‧凸緣部55‧‧‧ flange
60‧‧‧滑件60‧‧‧ Slider
61‧‧‧滑件主體61‧‧‧Slider body
63‧‧‧突出部63‧‧‧ protrusion
64‧‧‧下翼板64‧‧‧ lower wing
65‧‧‧凸緣部65‧‧‧ flange
65a‧‧‧縱壁部65a‧‧‧Vertical wall section
65b‧‧‧橫壁部65b‧‧‧cross wall
70‧‧‧滑件70‧‧‧ Slide
71‧‧‧滑件主體71‧‧‧Slip body
73‧‧‧上翼板73‧‧‧ Upper Wing
74‧‧‧下翼板74‧‧‧ lower wing
75‧‧‧凸緣部75‧‧‧ flange
80‧‧‧鏈齒構件80‧‧‧ Sprocket member
81‧‧‧拉鏈鏈齒81‧‧‧Zipper sprocket
82a‧‧‧主體部82a‧‧‧Main body
82b‧‧‧頸部82b‧‧‧ neck
82c‧‧‧嚙合頭部82c‧‧‧ engage the head
82d‧‧‧突片部82d‧‧‧ protruding section
82e‧‧‧插入凹部82e‧‧‧Inserted recess
82f‧‧‧凹槽部82f‧‧‧ groove
83a‧‧‧第1鏈齒部83a‧‧‧1st sprocket
83b‧‧‧第2鏈齒部83b‧‧‧Second sprocket
83c‧‧‧階差83c‧‧‧step
83d‧‧‧凸緣用凹部83d‧‧‧Concave for flange
W‧‧‧固定用縫製部之第1及第2刺穿位置與拉鏈鏈齒之間之寬度方向上之尺寸(隔開距離)W‧‧‧ Dimensions (separation distance) in the width direction between the first and second piercing positions of the fixing sewing part and the fastener element
圖1係模式性地表示本發明之實施例1之附有拉鏈之製品(衣服)之模式圖。 圖2係將於製品之拉鏈安裝部安裝有實施例1之鏈齒構件之部分放大而表示的放大俯視圖。 圖3係自嚙合對象側之鏈齒構件觀察於製品之拉鏈安裝部安裝有鏈齒構件之部分的側視圖。 圖4係沿圖2所示之IV-IV線之剖視圖。 圖5係表示將鏈齒構件安裝至製品之拉鏈安裝部之前之狀態的立體圖。 圖6係表示實施例1之變化例之附有拉鏈之製品之主要部分的俯視圖。 圖7係表示本發明之實施例2之附有拉鏈之製品之主要部分的俯視圖。 圖8係表示實施例2之鏈齒構件之立體圖。 圖9係表示本發明之實施例3之附有拉鏈之製品之主要部分之俯視圖。 圖10係表示實施例3之附有拉鏈之製品之主要部分之仰視圖。 圖11係實施例3之鏈齒構件之剖視圖。 圖12係表示本發明之實施例4之附有拉鏈之製品之主要部分之剖視圖。 圖13係表示本發明之實施例5之附有拉鏈之製品之主要部分之剖視圖。 圖14係表示本發明之實施例6之附有拉鏈之製品之主要部分之俯視圖。 圖15係模式性地說明鏈齒構件與滑件之關係之剖視圖。 圖16係表示實施例6之鏈齒構件之立體圖。 圖17係表示實施例1之另一變化例之附有拉鏈之製品之主要部分之俯視圖。 圖18係表示實施例1之又一變化例之附有拉鏈之製品之主要部分之俯視圖。 圖19係沿圖18所示之XIX-XIX線之剖視圖。FIG. 1 is a schematic diagram schematically showing a product (clothing) with a zipper according to Embodiment 1 of the present invention. FIG. 2 is an enlarged plan view showing a portion where a fastener element of Example 1 is mounted on a zipper mounting portion of a product. FIG. 3 is a side view of a portion where the sprocket member is mounted on the fastener mounting portion of the product from the sprocket member on the meshing object side. FIG. 4 is a sectional view taken along the line IV-IV shown in FIG. 2. FIG. 5 is a perspective view showing a state before a sprocket member is attached to a zipper attachment portion of a product. FIG. 6 is a plan view of a main part of a zipper-attached product showing a modification of the first embodiment. FIG. Fig. 7 is a plan view showing a main part of a zipper-attached product according to a second embodiment of the present invention. Fig. 8 is a perspective view showing a sprocket member of the second embodiment. Fig. 9 is a plan view showing a main part of a zipper-attached product according to a third embodiment of the present invention. Fig. 10 is a bottom view showing a main part of the article with a slide fastener according to Example 3; FIG. 11 is a sectional view of a sprocket member of Embodiment 3. FIG. Fig. 12 is a cross-sectional view showing a main part of a zipper-attached product according to a fourth embodiment of the present invention. Fig. 13 is a cross-sectional view showing a main part of a zipper-attached product according to a fifth embodiment of the present invention. Fig. 14 is a plan view showing a main part of a zippered article according to a sixth embodiment of the present invention. 15 is a cross-sectional view schematically illustrating the relationship between a sprocket member and a slider. FIG. 16 is a perspective view showing a sprocket member of Embodiment 6. FIG. FIG. 17 is a plan view showing a main part of a zipper-attached product according to another modification of Embodiment 1. FIG. FIG. 18 is a plan view showing a main part of a zipper-attached product according to still another modification of Example 1. FIG. FIG. 19 is a sectional view taken along the line XIX-XIX shown in FIG. 18.
Claims (15)
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/JP2017/003840 WO2018142548A1 (en) | 2017-02-02 | 2017-02-02 | Article with slide fastener |
??PCT/JP2017/003840 | 2017-02-02 | ||
PCT/JP2017/036535 WO2018142673A1 (en) | 2017-02-02 | 2017-10-06 | Slide fastener-attached product, element member, and method for manufacturing slide fastener-attached product |
??PCT/JP2017/036535 | 2017-10-06 |
Publications (1)
Publication Number | Publication Date |
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TW201828853A true TW201828853A (en) | 2018-08-16 |
Family
ID=61853828
Family Applications (4)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW106119596A TWI629022B (en) | 2017-02-02 | 2017-06-13 | Slide fastenbr-attached product |
TW106145090A TWI646917B (en) | 2017-02-02 | 2017-12-21 | Zipper-attached product and sprocket member, and method for manufacturing zipper-attached product |
TW106145088A TW201828852A (en) | 2017-02-02 | 2017-12-21 | Slide fastener-attached product, element member, and method for manufacturing slide fastener-attached product |
TW106145092A TW201828853A (en) | 2017-02-02 | 2017-12-21 | Slide fastener-attached product, element member, and method for manufacturing slide fastener-attached product |
Family Applications Before (3)
Application Number | Title | Priority Date | Filing Date |
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TW106119596A TWI629022B (en) | 2017-02-02 | 2017-06-13 | Slide fastenbr-attached product |
TW106145090A TWI646917B (en) | 2017-02-02 | 2017-12-21 | Zipper-attached product and sprocket member, and method for manufacturing zipper-attached product |
TW106145088A TW201828852A (en) | 2017-02-02 | 2017-12-21 | Slide fastener-attached product, element member, and method for manufacturing slide fastener-attached product |
Country Status (6)
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US (4) | US11406165B2 (en) |
EP (4) | EP3578075B1 (en) |
JP (4) | JP6691238B2 (en) |
CN (6) | CN207784481U (en) |
TW (4) | TWI629022B (en) |
WO (4) | WO2018142548A1 (en) |
Families Citing this family (15)
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US10863801B2 (en) * | 2015-12-02 | 2020-12-15 | Ykk Corporation | Tape member for slide fastener and manufacturing method of tape member |
US11406165B2 (en) * | 2017-02-02 | 2022-08-09 | Ykk Corporation | Slide fastener-attached product |
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